dsi underground systems catalogue us 01
DESCRIPTION
underground systemsTRANSCRIPT
Mining and Tunneling Products Catalogue
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MIN
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LING
PR
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UC
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Table of Contents Section
Mechanical Rock Bolts, Extension Bolts & Stelpipe Bolts 1
Rebar Rock Bolts 2
Cable Bolts 3
Friction Stabilizers & Expandable Bolts 4
DYWIDAG THREADBAR® 5
Trusses & Slings 6
Specialty Bolts 7
Fiberglass Bolts 8
Resins & Cement Cartridges 9
Mesh, Straps & Plate Washers 10
Eyebolts, Scaling Bars & Utility Hangers 11
Tools & Hardware, Drilling Consumables 12
Lattice Girders, Steel Arches & Props 13
High Performance Grouts & Application Equipment 14
Drilling Fluids 15
Miscellaneous 16
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Section1-Page1May 2013
C1060 Steel C1070 C1070M
20,000 lbs(89 kN)
33,400 lbs(148 kN)
17,100 lbs(76 kN)
31,200 lbs(139 kN)
28,400 lbs(126 KN)
35,000 lbs(156 KN)
13,600 lbs(60 kN)
22,600 lbs(100 kN)
Yield Strength, min.
Tensile Strength, min.
Minimum 8% Minimum 2.2%Minimum 12%Ultimate Axial Strain
5/8" Bolt 5/8" TBE Bolt3/4" Bolt5/8" Bolt
All dimensions in accordancewith ASTM F432 & CSA M430-90 specifications
5/8" Bolt 3/4" Bolt
± ±0.68" ( 17.3 mm)E Body Diameter
F Head Across Flats
G Head Across Corners
H Head Height
I Thread Size, left & right
Head Type
11/8" SquareAll bolts
All bolts
T-Dome
11/8" Square
11/8" Square & T-Dome
T-Dome
1.088" - 1.125" (27.64 - 28.58 mm) 0.906" - 0.938" (23.01 - 23.83 mm)
1.425" - 1.591" (36.19 - 40.41 mm)1.244" - 1.326" (31.60 - 33.68 mm)
0.40" (10.16 mm)5/8" - 11 UNC 3/4" - 10 UNC 7/8" - 9 UNC
± ±0.56" ( 14.2 mm)
length as specifiedH
F
G
E
I
thread length as specified
5
33/4" (95 mm) min.12" (305 mm) max.
(6 mm) up to 10' (3 m)(13 mm) over 10' (3 m)
1/4"1/2"
+–+–
All mechanical & physical properties in accordancewith ASTM F432, ASTM A29 & CSA M430-90 specifications5/8" steel special order
A29 (gr75 for USA)
Yield Strength, min.
Tensile Strength, min.
Minimum 8%Ultimate Axial Strain
17,000 lbs(75 kN)
22,600 lbs(100 kN)
5/8" Bolt
25,100 lbs(111 kN)
33,400 lbs(149 kN)
3/4" Bolt
C1055 (A29)
15,600 lbs(69 kN)
24,000 lbs(106 kN)
Minimum 10%
5/8" Bolt
USA manufactured bolts: made to ASTM F432 and MSHA approved
DS
I
G3 548
bolt length
34,700 lbs(154.3 kN)46,200 lbs(205.5 kN)
7/8" Bolt
7/8" Bolt
± 0.79" ±( 20.1 mm )
Mechanical Rock Bolts (Forged Head & Threaded)
Nominal 5/8" and 3/4" sizes and 7/8"
T-Dome (15/16" Square)
Threaded Both End (TBE)
Forged Head (11/8" Square)
continued
Head Type 5/8" Bolt 3/4" Bolt 7/8" Bolt
Body Diameter E All bolts ±0.56" (±14.2mm) ±0.68" (±17.3mm) ±0.79" (±20.1mm)
Head Across Flats F11/8" Square
T-Dome1.088" - 1.125" (27.64 - 28.58mm) 0.906" - 0.938" (23.01 - 23.83mm)
Head Across Corners G11/8" Square
T-Dome1.425" - 1.591" (36.19 - 40.41mm) 1.244" - 1.326" (31.60 - 33.68mm)
Head Height H 11/8" Square & T-Dome 0.40" (10.16mm)
Thread Size (left and right) I All Bolts 5/8"- 11 UNC 3/4"- 10 UNC 7/8"- 9 UNC
Dimensions
All dimensions in accordance with ASTM F432 & CSA M430-90 speci�cations
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Section1-Page2 May 2013
Mechanical Rock Bolts (Forged Head & Threaded) continued
Technical DataC1060 Steel C1070 C1070M
5/8" Bolt 3/4" Bolt 5/8" Bolt 5/8" TBE Bolt
Yield Strength, min.13,600 lbs
(60 kN)20,000 lbs
(89 kN)17,100 lbs
(76 kN)28,400 lbs (126 kN)
Tensile Strength, min.22,600 lbs (100 kN)
33,400 lbs (148 kN)
31,200 lbs (139 kN)
35,000 lbs (156 kN)
Ultimate Axial Strain Minimum 12% Minimum 8% Minimum 2.2%
C1055 (A29) A29 (Gr.75 for USA)
5/8" Bolt 5/8" Bolt 3/4" Bolt 7/8" Bolt
Yield Strength, min.15,600 lbs
(69 kN)17,000 lbs
(75 kN)25,100 lbs (111 kN)
34,700 lbs (154.3 kN)
Tensile Strength, min.24,000 lbs (106 kN)
22,600 lbs (100 kN)
33,400 lbs (149 kN)
46,200 lbs (205.5 kN)
Ultimate Axial Strain Minimum 10% Minimum 8%
All mechanical & physical properties in accordance with ASTM F432, ASTM A29 & CSA M430-90 speci�cations5/8" steel special order
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Section1-Page3May 2013
Installation Accessories
Mechanical Rock Bolts
Nuts•forTBErockboltsonly•for5/8" and 3/4" & 7/8" UNC thread:•A.F.=11/8" square•T=0.8"
Expansion Shells•for5/8" & 3/4" UNC threads & 7/8" where applicable•Ø=11/32"(26mm)holesize:modelF1F,L=31/4"•Ø=11/4" (32 mm) hole size: model F11/4B,L=31/4"•Ø=13/8"(35mm)holesize:modelF2B,L=27/8"•Ø=11/2"(38mm)holesize:modelD1L,L=5"•Ø=13/4"(45mm)holesize:modelD5-1,L=3"
Hardened Round Washers•toASTMF436specifications•for5/8" and 3/4" thread•I.D.=13/16"•O.D.=115/32"•T=0.122"to0.177"
Spherical Seat (Compensation) Washers•ductileironASTMA536Gr.65-45-12•for5/8" thread: I.D.=11/16",O.D.=2",H=3/4" (model TSW-2) I.D.=15/16",O.D.=2",H=1/2" (model TSW)•for3/4" thread: I.D.=13/16",O.D.=2",H=13/16" (model TSW-4) I.D.=15/16",O.D.=2",H=1/2" (model TSW)
Installation Tools - for Stopers/Jacklegs•forforgedheadrockbolts: 11/8" square driver 15/16" square driver (for T-Dome bolts)•forTBEbolts: 11/8" square nutrunner•availablewith7/8" hex shank or socket
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Section1-Page4 May 2013
Extension Bolt (7/8" High Tensile)
2 Part with Coupler
7/8" High Tensile Extension Bolt
Body Diameter E ±0.88" (±22.3mm)
Thread Size (left and right) I1 7/8" - 9 UNC
Thread Size (left and right) I2 7/8" - 14 UNF
7/8" High Tensile Extension Bolt
Minimum Yield Strength 57,200 (254 kN)
Typical Ultimate Strength 74,500 (330 kN)
Ultimate Axial Strain Minimum 1.85%
Torquing Pinch (optional) Nominal 70 ft - lbs
15/16" Hex Nutrunner
x 7/8" hex socket
7/8" UNC Hex Nut
7/8" Hardened Round Washer
TSW-1 Spherical Seat Washer
7/8" UNF Coupler
D5-1 Shell Plug for resin installation
D5-1 Expansion Shell Ø13/4"
Dimensions
Technical Data
Hardware
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Section1-Page5May 2013
Stelpipe Bolts (Groutable Rock Bolts)
Nominal ¾" and 1" sizes
Dimensions
Roll Threading
Technical Data
3/4" (19 mm) Stelpipe 1" (25 mm) Stelpipe
Body Diameter E 0.68" (17.3mm) 0.92" (23.4mm)
GroutHoleDiameterF 0.34" (8.6mm) 0.40" (10.2mm)
Thread Size (left and right) I 3/4”- 10 UNC 1" - 8 UNC
3/4" (19 mm) Stelpipe 1" (25 mm) Stelpipe
SteelGrade 1022M
Minimum Tensile Strength27,000 lbs (120 kN)
50,000 lbs (222 kN)
Recommended Hole Diameter11/4" to 13/8"
(31.8mm to 35mm)13/4"
(44.5mm)
Recommended Expansion ShellFrazer & Jones Model
3/4" × F 1/4" with bail center holeFrazer & Jones Model
1" × F9F with bail center hole
Ultimate Axial Strain 15% typical
Thread Size / Type Pitch Diameter Major Diameter
3/4" - 10 UNC0.6773" to 0.6832"
(17.20mm to 17.35mm)0.7353" to 0.7482"
(18.68mm to 19.00mm)
1" - 8 UNC0.9100" to 0.9168"
(32.11mm to 23.29mm)0.9830" to 0.9980"
(24.97mm to 25.35mm)
Standard UNC 2A Values Left Hand (LH) & Right Hand (RH) threads available
Speci�cation for the tube bolt steel is selected by Stelpipe's metallurgical department
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Section1-Page6 May 2013
Installation Accessories
Stelpipe Rock Bolts
Nuts•for3/4" thread: A.F.=11/8" square T=0.8"•for1thread: A.F.=15/8" hex T=63/64"
Expansion Shells•for3/4" thread (model F11/4B): L=31/4" Ø=11/4" (32 mm) hole size•for1thread(modelF9F): L=31/4" Ø=13/4
Hardened Round Washers•toASTMF436specifications•for3/4" thread: I.D.=13/16",O.D.=115/32",T=0.122to0.177"•for1thread: I.D.=11/8",O.D.=2",T=0.136"to0.177"
Spherical Seat (Compensation) Washers•ductileironASTMA536Gr.65-45-12•for3/4" thread: I.D.=13/16",O.D.=2",H=13/16" (model TSW-4) I.D.=15/16",O.D.=2",H=1/2" (model TSW)•for1"thread: I.D.=11/16",O.D.=2",H=1/2" (model TSW-1)
Installation Tools - for Stopers/Jacklegs•11/8" square nutrunner (for 3/4" bolts)•15/8" hex nutrunner (for 1" bolts)•availablewith7/8" hex socket or 31/4" long 7/8" hex shank
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Section1-Page7May 2013
Condition of Threads - Threads should be inspectedbeforeinstallation.Increasedfrictiononthe threads adversely affects the torque tension relationship.
Fillet on Forged Head - Forged head rock bolts shouldbeinspectedtoensureafilletof1/8 " radius is present where the shaft connects to the forged head. Sharp transitions may weaken the bolt.
Hole Length - Holes too short for the bolt in use may cause the shell to distort or inhibit proper tensioningofthebolt.Goodpracticesuggeststhatthe hole length should be equal to the bolt length plus shell length.
Hole Condition - The hole should be cleaned and examined to ensure the bolt will insert smoothly. Damage to the shell may result if it must be forced into the hole.
continued
Installation Quality Guidelines
Mechanical Rock Bolts
The following are items to be aware of when installing mechanical rock bolts (forged head and threaded both end [TBE] bolts):
Type of Ground - The nature of the ground must be evaluated. Soft strata requires a larger plate washer and/or expansion shell bearing area. Greaterexpansionoftheexpansionshellleavesmay be required. Soft ground results in larger hole sizes for a given bit size (bit rattling and reaming). Special anchors are available for soft ground. Excessively hard ground can be detrimental as well. Hard ground can result in poor anchorage as the shell is unable to “bite” into the rock.
Scaling - The ground should be thoroughly scaled i.e. barred down, before drilling and bolting. Periodic re-scaling may be required while drilling.
Strength and Yield Capacity of Bolt - The mechanical properties of the bolt should be appropriate for the ground conditions, bolt length and bolting pattern. Pull tests and torque-tension tests should be performed to determine yield strengths and anchorage capacities of the bolts being used.
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Section1-Page8 May 2013
Oversize Holes - Holes 1/8 " oversized can reduce holdingstrengthby70%.Oversizedholescanbecaused using the wrong bit size, leaving the drill running while �ushing the hole, soft ground (faults, gouge, etc.) and bent drill steel.
Undersized Holes - Undersized holes will not permit the plug in the expansion shell to seat properly. The leaves or bail can break and distort upon forced entry. Undersized holes are usually caused by worn bits and/or wrong bit sizes being used.
Friction Flair Expansion Shells - A recent improvement in expansion shell design is the addition of �airs or wings on the bail strap at the bottomoftheleaves.Installationisimprovedasthere is no need to set the anchor to keep the bolt from sliding out of the hole during installation. The anchor sets up faster as the plug engages the leaves freely. Spinning of the anchor in the hole is prevented, thereby eliminating the principal cause of bolt failure upon installation.
Resin Anchors - Using a resin cartridge to assist in anchoring mechanical rock bolts is gaining popularity.Ifusedwithanexpansionshell,theshell must have provisions for the passage of resin around the shell wedge. This ensures proper encapsulation of the expansion shell without causing any damage to the assembly.
Expansion Shell Plastic Sleeve - The plastic sleeve holding the leaves together on an expansion shellshouldberemovedpriortoinstallation.Iflefton it could result in poor anchorage.
Set Up of Expansion Shell-Immediatelypriorto installation the expansion shell should be set to the correct diameter to enable the bolt to be pushed up the hole by hand, set and anchored. If notexpandedenoughtherewillbedifficultiesinanchoring.Ifexpandedtoomuchtheendofthebolt can break the bail or leaf attachment prior to the leaves being set.
continued
Installation Quality Guidelines continued
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Section1-Page9May 2013
bolt dollies have a 7/8" hex shank and are only 31/4" long.Inadditiontobeingthepropersizefortherock bolt head or nut, the dolly must also have sufficientsocketdepthtoallownutstoberunontothe ends of TBE bolts.
Proper Torquing of Bolts - Typically, 3.5 tons of installed tension is required for a rock bolt to set the anchor and tension the bolt to 50% of the yield strength. An approximately linear relationship exists between the applied torque and the tension in a forged head rock bolt.
continued
Installation Quality Guidelines continued
DSI - Mining’s T-Dome - forged head rock bolts have a special concave head design which when used in conjunction with T-Dome plates, work like a ball-and-socket and correct for angularity without requiring extra washers.
Rock Bolt Dollies - Rock bolt installation dollies should only transfer rotational energy to the rock bolt during installation, not percussive energy, when stopers and jacklegs are used. The shank end of the dollie must be short enough to avoid contact with the drill piston. Typically, these rock
As TBE bolts turn at both ends during torquing, they generally apply more tension for the same amount of applied torque due to the reduced resistance to friction. However, as a generality:
All mechanical rock bolts should be torqued to a minimum of 150 ft-lbs (per ASTM F432).
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Section1-Page10 May 2013
the placement and spacing of bolts. Torque measurements can be recorded on the wall or plate of the bolt which will permit monitoring of theloadontheboltduringtheminingcycle.Ifnecessary, bolts can also be re-torqued if loss in tension occurs. Torque testing is best done by a crew supervisor (or dedicated technician) while visiting work areas during his rounds.
Education - Proper education of mining personnel and supervisors is mandatory. As manpower turnover is relatively frequent in bolting crews, education must be continuous. Forget this and you waste money.
Packaging - Vendors must package bolting products in an acceptable manner both for con-venience of use as well as prevention of damage to the product during shipping and handling. Particular care must be paid to wrapping of the thread ends to prevent damage and corrosion. Goodpackagingcostsmorebutisworththeadded cost by reducing wastage on site.
continued
Installation Quality Guidelines continued
Overtorquing-Overtorquingoftheboltsmustbe avoided. With forged head bolts, the heads canbeweakenedorshearedoff.Overtorquingmay tension the bolt past it’s yield point which is undesirable.
Undertorquing - Undertorquing can result in poor anchorage. Under tensioned bolts are particularly susceptible to blasting damage. Bolts will not applysufficientcompressiveforcetothegroundas per design requirements.
Monitoring-Inpractice,rockbolttensionoftendrops after installation. Expansion shells can slip due to blasting vibrations, shells can move as high stress concentrations along the leaves cause localizedfailureoftheground,andfinally,therockcan fail under the plate washer.
The installation of any ground support system must be monitored to ensure proper procedures and installation quality are maintained. For rock bolts this requires verifying torque and
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Section1-Page11May 2013
Matching Bolt and Shell Threads - While North American mines typically use UNC thread specs, other countries can use different thread types. Care must be taken not to mismatch shells and bolts from various manufacturers. A minimum UNC class 1A thread spec should be met on allthreadsasperASTMF432guidelines.DSI-Mining exceeds ASTM specs and rolls threads to a class2Aspecification.
Support Nuts - While they are sometimes used on TBE bolts, the practice of installing a nut below the anchor shell should be avoided on forged head bolts.Ifthesupportnutcomesincontactwiththe shell, friction between these two surfaces will prevent the bolt from elongating properly and will give false torque readings as the bolt is tensioned. Headed bolts should be free to elongate into the hole through the expansion shell.
TBE Bolt Nuts - Do not run the nut on a TBE bolt to the end of the threads and onto the shank. Strength can be reduced by as much as 50%. Each revolution of the nut onto the shank reduces the thread engagement length.
Notching of TBE bolt threads - Notching threads on TBE bolts is a poor installation practice and must be avoided. This practice locks the nut onto the bolt which then makes the TBE bolt act as a forged head bolt. Deep gouging can reduce the bolts strength.
Proper Grade Plates - Thin or weak plates will deform at low bolt tension. High torques will produce lower tension values. The bolt could also rip through the plate during installation or by bolt loading. Plate should meet ASTM F432 specs. The minimum spec is a grade 2 plate which has less than 0.25 de�ection when the load on the plate is increased from 6,000 to 20,000 lbs.
Hardened Steel Washers - Hardened steel washers should be used between the forged head or nut and the plate washer. The washer reduces friction and enhances the torque-tension relationship. Minimum grade should be Type 2 (ASTM F432 spec) and hole size in plate washer should be no more than 3/8" diameter larger than bolt size. A spherical seat washer can also be used to reduce friction.
Wooden Washers - Although seldom used nowadays, wooden washers help prevent the plate from cutting into mine screen (mesh) when present. The wood may cause tension bleed off however. Care must be used to watch for rotting of the wood.
Perpendicular Installation - Bolts should be installed as near perpendicular to the rock surface as possible. Bolts not perpendicular to the plate and rock surface will be marginally weaker and will not be pretensioned properly. The following example using a 5/8 " forged head rock bolt installed with 180 ft-lbs torque illustrates the scope of the problem.
Installation Quality Guidelines continued
Angle from Perpendicular
Installed Tension
ReductionUltimate Breaking
LoadReduction
0 13,030 lbs - 26,780 lbs -
10 10,280 lbs 21.1% 25,690 lbs 4.1%
20 5,230 lbs 59.8% 25,060 lbs 6.4"
30 3,280 lbs 74.8% 23,050 lbs 13.9%
Results from lab testing conducted at Stelco.
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Section2-Page1May 2013
#5 (15M) #6 (20M) #7 (22M) #8 (25M)
Nominal Bar Size E 0.625" (16mm) 0.750" (19.5mm) 0.875" (22.2mm) 1.0" (25.2mm)
Head Across Flats F 1.088" to 1.125" (27.64mm to 28.58mm)
Head Across Corners G 1.425" to 1.591" (36.19 mm to 40.41mm)
Head Height, min. H 0.40" (10.2mm)
Thread Size (left and right) I 5/8”- 11 UNC 3/4"- 10 UNC 7/8"- 9 UNC 1"- 8 UNC
#5 (15M) #6 (20M) #7 (22M) #8 (25M)
Yield Strength, min.18,600 lbs
(80 kN)26,400 lbs (120 kN)
36,100 lbs (155 kN)
47,100 lbs (200 kN)
Tensile Strength, min.27,600 lbs (121 kN)
39,600 lbs (180 kN)
54,100 lbs (232 kN)
70,600 lbs (300 kN)
Elongation in 8" (200mm) 9% minimum
5/8" - 11 UNC 3/4" - 10 UNC 7/8" - 9 UNC 1" - 8 UNC
Yield Strength, min.13,600 lbs (60.5 kN)
20,000 lbs (89 kN)
27,700 lbs (123.2 kN)
36,400 lbs (161.9 kN)
Tensile Strength, min.20,300 lbs (90.3 kN)
30,100 lbs (133.9 kN)
41,600 lbs (185 kN)
54,500 lbs (242.4 kN)
Elongation in 8" (200mm) 9% minimum
Rebar Rock Bolts (Forged Head & Threaded)
#5 (15M), #6 (20M), #7 (22M) and #8 (25M)Forged Head Rebar
Threaded Rebar
Dimensions
Technical Data - Forged Head - Grade 60
Technical Data - Threaded - Grade 60
Notes: USA - manufactured to ASTM F432 and ASTM A615 speci�cations; bolts MSHA approved Canada - manufactured to ASTM F432, CSA M430 and CSA G30.18M speci�cations Grade 40 & 75 available where applicable. Notched rebar optional for bending.
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Section2-Page2 May 2013
MGSD Bar
ThenewDSIhybridsizebartoalloweasierinsertion through resin and better resin mixing.
0.004"0.003"
"A" DIAMETER
0.1
"C"DEFORMATION HEIGHT
Size GradeYield min.
Yield max.
Tensile min.
Tensile max.
Elongation"A"
Diameter"A" Aim
"C" Nominal
"C" Deviation
3/4" 75 75,000 87,000 100,000 131,000 8 % min. 0.680" 0.680"-0.686" 0.060"0.038" min. 0.068" max.
7/8" 75 75,000 87,000 100,000 131,000 8 % min. 0.796" 0.796"-0.808" 0.054"0.038" min. 0.068" max.
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Section2-Page3May 2013
Installation Accessories
Rebar Rock BoltsNuts
Domenuts•for3/4"threadA.F.=11/8" square•for7/8"threadA.F.=11/8" square•for1"threadA.F.=15/8" hexPlain Nuts - used with pinched thread•for3/4"threadA.F.=11/8" square•for7/8"threadA.F.=11/8" square with �ange•for1"threadA.F.=15/8" hexTorq Bolts - system available•for3/4" and 7/8"threadA.F.=11/8" square
Resin Mixing System "crimped thread"
Hardened Round Washers•toASTMF436specifications•for3/4" thread: I.D.=13/16",O.D.=115/32",T=0.122"to0.177"•for7/8" thread: I.D.=15/16",O.D.=13/4",T=0.136"to0.177"•for1"thread: I.D.=11/8",O.D.=2",T=0.136"to0.177"
Spherical Seat (Compensation) Washers•ductileironASTMA536Gr.65-45-12•for3/4" thread: I.D.=13/16",O.D.=2",H=13/16" (model TSW-4) I.D.=15/16",O.D.=2",H=1/2" (model TSW)•for7/8" & 1" thread: I.D.=11/16",O.D.=2",H=1/2" (model TSW-1)
Installation Tools - for Stopers/JacklegsForged Head Rebar Driver (Dollie)•11/8" square driver•availablewith7/8" hex socket or 3 1/4" long hex shankThreaded Rebar Nutrunners•11/8" square nutrunner (for 3/4" & 7/8" bolts)•15/8" hex nutrunner (for 1" bolts)•availablewith7/8" hex socket or 31/4" long hex shank
Reverse Spin Reverse Drive
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Section2-Page4 May 2013
Installation Accessories
Tandem Anchor
•patented•slottedshellbaseremovesthechanceofseverelytwisted
shells with leaves buckled inward onto the thread•thesystemincorporatesbothmechanical(expansionshell)&
resin anchorage
Other Rebar Product Variations•coupledbolts•notchedbolts(forbending)
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Section2-Page5May 2013
Expansion Shell
Resin
Installation Accessories
Tandem AnchorComponents•#6(3/4")or#7(7/8") headed rebar•expansionshell(usuallyD8)•supportnut•washer(2"or21/4")
•for13/8" or 11/2" drill holes
•TandemAnchorBoltsare"POINTANCHORBOLTS"becausethe full length of the bolt is placed under tension. Resin is inserted into the drilled hole followed by the bolt. Rotation of the bolt mixes the resin and causes the expansion shell to expand and place the bolt in tension. This system incorporates both mechanical (expansion shell) and resin anchorage.
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Section2-Page6 May 2013
Installation Accessories
Two Piece Tandem AnchorComponents•#6(3/4")or#7(7/8") rebar•5/8" or 3/4" headed smooth bar•coupling•expansionshell(usuallyD8)•supportnut•washer(2"or21/4")
•TandemAnchorCombosare"POINTANCHORS".Theprimarydifference in this unit and the Tandem Anchor is the utilization of two or more individual rods to create a single bolt. This is necessary when the bolt, to be installed, is longer than the coalseamishighandthebendingofasingleboltisdifficultor impossible.
Expansion Shell
Resin
Rebar
Smooth Bar
Coupling
Washer
Support Nut
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Section2-Page7May 2013
D-DomeTM Rebar Rockbolts (patent pending)
#7 (22m)
Dimensions and Regulatory Requirements•seeRebarRockboltspageforsizeandregulatoryrequirement
characteristics of D-DomeTM Rebar Rockbolts
Technical Data•theD-DomeTM Rebar Rockbolts produces up to a 60%
increase in head strength versus ASTM F432.95 requirements
Side View Comparison
•theD-DomeTM headed rebar bolt offers increased security against roof loading•pleasecontactalocalsalesrepresentativeforasampleproductandtoarrangeforatrial
regular head for comparison
D-Dome™ head for comparison
Traditional headed rebar bolt loaded to 32,000 lbs
D-DomeTM headed rebar bolt loaded to 54,000 lbs
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Section2-Page8 May 2013
•Inadditiontoimprovedmixingpropertiesthe“posimix” device also tends to pump the plastic skin of the chemical anchor to the back of the hole which eliminates the ‘gloving’ effect.
•AllDSIconventionalchemicalboltscanbemanufactured as “posimix” bolts and supplied to suit either left or right hand bolt rotation.
•Recommendedholesizeis31to38mmdiameter.•Corrosionprotectionmaybeprovidedbyhot
dip galvanizing.
Posimix Resin Bolt System
General Features•Manufactureofthe“posimix”boltisthe
addition of a specially designed spring wire attachedtotheupholeendofmanyofDSIrock bolts.
•The“posimix”boltingsystemwasdesignedto assist in the installation of rock bolts with chemical anchors in larger diameter holes (31-38mm) by providing:•substantiallyenhancedmixingofthe
chemical anchors,•loadtransfercapabilitiesaremaximised,•theabilitytobeinstalledwithafacejumbo
as well as hand held machines. •The“posimix”devicecentralisesthebolt
in the hole allowing an even distribution of thechemicalanchoraroundthebolt.Italsoacts as an Archimedes screw pump forcing the chemical towards the back of the hole, assisting in mixing whilst consolidating the anchor for improved load transfer properties.
www.dsiunderground.com
Section2-Page9May 2013
Tension Jack/Pull Test Kit
30 Ton Capacity
General Information•Thepulltestkitconsistsoftwoassemblies:•amechanicalassemblywhichincludesaclaw,stand,nut,&spindle•ahydraulicassemblywhichincludesahollowcoreram,handpump,gauge,&hose
•Thegaugemeasurespressure,whichiseasilyconvertedintotonsofload•Suitablefortestingvirtuallyalltypesofrockboltsandsoilnails•WhentestingSplitSet™,Swellex™,orforgedheadbolts,thepullcollarmustbeputontotheboltBEFOREinstallationofthebolt
•30tonunitsavailableforsaleorrent•Comescompletewithwoodencrate•Pulltestcollarsavailableuponrequest
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Section3-Page1May 2013
Minicage™ Cable Bolts (Plain & Bulb)
0.5", 0.6" and 0.7"Plain Cable Bolt
Bulbed Cable Bolt
0.5" Cable Bolt 0.6" Cable Bolt 0.7" Cable Bolt
Strand Diameter E0.500"
12.70mm
0.600"
15.24 mm
0.700"
17.78mm
0.5" Cable Bolt 0.6" Cable Bolt 0.7" Cable Bolt
Product uncoated 7 wire low relaxation strand
Grade 270 K - 270,000 psi (1860 MPa) ultimate strength
Breaking strength, min 41,300 lbs (183.7 kN) 58,600 lbs (260.7 kN) 76,200 lbs (339 kN)
1% extension under load, min. 37,170 lbs (165.3 kN) 52,740 lbs (234.6 kN) 68,600 lbs (305.1 kN)
Elongation in 24 inch (610mm) 3.5% minimum
Relaxation after 1000 hrsmaximum2.5%withinitialload=70%breakingstrength maximum3.5%withinitialload=80%breakingstrength
Specification ASTMA416,CSAG279-75,CSAG279-M1985
0.5" Cable Bolt 0.6" Cable Bolt 0.7" Cable Bolt
Construction 1 center wire & 6 outer wires
Steel areanom. 0.153 in2
(98.7 mm2)nom. 0.217 in2
(140mm2)nom. 0.304 in2
(196 mm2)
Standing pitch 12-16 × diameter
Weight per 1000 ft Weight per 1000 m
520 lbs 775 kg
740 lbs 1102 kg
1110 lbs 1654 kg
Difference in wire size (center - outer)
min. 0.003" (0.076mm)
min. 0.004" (0.102 mm)
min. 0.005" (0.127 mm)
Dimensions
Physical Properties
Construction Details
Galvanized cable bolts available on request
+0.026" -0.006"
+0.66 mm -0.15 mm
+0.026" -0.006"
+0.66 mm -0.15 mm
+0.026" -0.006"
+0.66 mm -0.15 mm
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Section3-Page2 May 2013
Installation Accessories
Cable Bolts
End Holding Device - Conventional Style•toholdcableboltpriortogrouting•2straps3/4" x 23/4" (19 mm x 70 mm)•suitablefor2" (51 mm) to 2.5" (64 mm) hole•canbeorderedseparatelyandsiteinstalled•iffactoryordered,strapsremovedforshipping•notavailablefordoublecablebolts
End Holding Device - Fish Hook Style•hooksswagedonwithsteeltubing•hookscanbebentouttoaccommodate
any hole size•forsingleordoublecablebolts•fittingholdsdoublecablestogether
0.5", 0.6" & 0.7" Machined Cable Grip - to fasten Plates•ratedforfullloadofcablebolt•Ø11/4" (32 mm) for 0.5" cable bolts•Ø11/2" (38 mm) for 0.6" cable bolts•c/w2partgripperwedges•availablegalvanized•optionalplasticcaptosecurewedges during shipping
0.6" & 0.7" Cast Domed Cable Grip - to fasten Plates•ratedforfullloadofcablebolt•Ø2" (51 mm) domed face•c/w2partgripperwedges•wedgesavailablewithorwithout
groove & retaining spring•availablegalvanized•optionalplasticcaptosecurewedges during shipping
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Section3-Page3May 2013
Passive Spinnable Cable Bolt - for Resin Installation•0.6" & 0.7" cable available•resinanchored•bulbsprovideresinmixingandanchoring•accepts11/8" square or hex male spinner•availableplainorgalvanized•cableavailableinanylength•factoryassembled
Strand Lok•available with minimum 4 ton or 12 ton terminal•easyinstallation,nocementtomix•dissipates“impactshock”•maintainsbondbetweencableandresingrout•enhancedonepasssupport•bulgediameterandspacingvariable•idealforconfinedspaces•superiorshearstrengthforonepasssupport•higherultimatetensile•installed with “high strength low viscosity strand-loc resin”•resincompressivestrengthexceeding100MPA•Youngsmodulus11-13GPA•customcartridgediameterandlength
Installation Procedure•drill a 1¼" hole to a depth which will allow the bolt to bottom out when fully inserted•insert the Strand-Lok resin cartridges•manually push the Strand Bolt into the resin to within 2' or 3' of full penetration•Spin the Strand Bolt through the resin to complete the insertion and then continue spinning for an additional 10 seconds at full insertion•ontensionedinstallationsallowsufficienttimefortheresintogelandgainstrengthbeforetorquing
Notes•the12tonterminalisdesignedforwherecollarsupportisneeded•arecessedterminalhasbeendesignedtobeusedinclosequarterswherethe protruding termnal would be an obstruction•acoupledextensiondrillsteelhasbeendesignedtokeepthe"extension"drill hole size at 1¼"
Installation Accessories continued
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Section3-Page4 May 2013
0.6" & 0.7" Dogbone Cable Coupler•ratedforfullloadofcablebolt•usedtojoincablesforslingsortrusses•usedtowrapfailingpillars•requires2setsofwedges(included)
Grout and Breather Tubing•¾"IDx7/8"ODblackpolytubing(400'roll)•¾"IDx7/8"ODhighdensitygrouttubing(400'roll)•½"IDx5/8"ODregularpolytubing(400'roll)•3/8"IDx½"ODhighdensitypolytubing(500'roll)•blackpolytubingratedfor100psi•yellowhighdensitytubingratedfor200psi
Installation Accessories continued
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Section3-Page5May 2013
Cable Bolt
0.6" or 0.7" Passive and Tensionable
•270ksi,lowrelaxationcableperASTMA416.•Suppliedinanylength,blackorgalvanizedcable.•Pointanchoredactivebolt,tensionedafter
installation utilizing the hydraulic tensioning jack.•Point-anchoredpassiveboltwithpre-seated
head. Wedge barrel shaped to accept 11/8" hex or square male spinner.
•Severaloptionsforanchoringintheresinareavailable: The bulbed cable bolt is designed forpoint-anchoringinresin.Itmayalsobefullygrouted with slow speed resin, or cement grouts. Bulbing is an effective means to center the bolt in the drill hole, to mix the resin and to develop bond for anchoring the bolt.
•TheBondheadisanadditionalbulbthatcanbeformed on the end of the cable bolt.
•Bulbsareprovidedtofitholesizes: 1" hole: strip cage 13/8" hole: plunge bulb 1¾" hole: bond head•Ultralowpassiveheadscanbeprovidedforlow
clearance situations.
Cable Diameter 0.6" gr270 0.7" gr270
Weight 0.74 lbs/ft 1.11 lbs/ft
Bore Hole Diameter 1" to 1.375" 1" to 1.375"
Cross Sectional Area 140 mm2 196 mm2
Ultimate Strength [1000 lbs] 58.6 76.2
Yield Strength [1000 lbs] 46 68.6
Min. Elongation in 2ft 3.5% 3.5%
Typical Plate gr6 w/ 13/8" hole Grade6 Also available are 0.5“, 0.62“ and 0.9“ upon request.
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Section3-Page6 May 2013
CBJ-1 Cable Bolt Tensioning Jack
For installation of bearing plates
Speci�cations•for0.6"(15.2mm)or0.7"(17.8mm)cablebolts•maximumload25ton@10,000psi(225kN@70MPa)•stroke=3"(75mm)•doubleactinghollowcoreram•aluminumconstruction-weighsonly10lbs(4.5kg)•requiresdoubleactinghydraulicpumporhandpump•L=11.75"(300mm)•D=4"(102mm)
Parts
Seal Kit includes:
1 - 2.25" AN wiper1 - 2.25" x 2.75" x 3.75" rod seal1 - 1.25" x 1.75" x 0.250" rod seal1 - 2.31" O-ring1 - 2.875" T-seal
1) Regularly ensure autogripper is screwed hand tight into the hollow core ram.
2) Ensure the cable strand is free from mud and dust. Also regularly clean the autogripper wedges.
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Section3-Page7May 2013
Torque Tension Relationship for CB1-1
Cable Jack with 3.4:1 Intensi�er
Speci�cations•for0.6"(15.2mm)or0.7"(17.8mm)cablebolts•stroke=3"(75mm)•doubleactinghollowcoreram•aluminumconstruction-weighsonly10lbs(4.5kg)•requiresdoubleactinghydraulicpumporhandpump•L=11.75"(300mm)•D=4"(102mm)
0.6" Cable Tensioner with 3.4:1 Intensi�er Pressure Vs Load (LBF) 2000 Psi Maximum Working Pressure
Note•cylinderarea=5.01in²•2000psiisthemaximumpressureallowedforusewith0.6"cable
Load
(LB
F)
Pressure (Psi)
.6 Cable Tensioner with 3.4:1 Intensifier Pressure Vs. Load (LBF)
2000 PSI Maximum Inlet Pressure
0 250 500 750 1000 1250 1500 17500
5,000
10,000
15,000
20,000
25,000
30,000
35,000
2000
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Section3-Page8 May 2013
Operating Procedure
For intensi�ed cable truss tensioner
•Slideassemblyontothetailofthecableuntilthe tensioner nose is fully seated against the wedges of the dogbone/wedge barrel. A minimum of one inch of cable tail should protrude from the end of the autogripper assembly.(Ifthecabledoesnotprotrude from the back of the tensioner the minimum one inch length the jaws will not grip the cable properly.Thereissignificantriskthatthecablewill strip the wedge teeth).
•Pressurizethecylindertothedesiredload(2,000 psi/17 ton maximum for the 0.6” x 30 ton cable – see appendix 1 for a pressure versusloadplot).Ifthecylinderrunsoutoftravel before the load is reached, release the pressure and slide the cylinder on further and repeat the tensioning process.
•ThefollowingwearcomponentsareavailableforpurchasefromyourlocalDSIsupplier(appendix 2): •Autogripperassembly •Autogripperwedges •O-Ringkit •BananaNose
•Ensurethatallhydraulicfittingsaretightenedbefore operation, and that the unit is in good working order. Check the following: •Therearenomajordentsinthehousing. •Thattheautogripperassembly(goldincolor)
is fully tightened against the face of the piston.
•Thattheautogripperwedgesareingoodcondition and are not chipped, dented or missing teeth.
•Thattherearenomajorleaksinthesystem.
•Monitorduringusethefollowing •Theautogripperremainsscrewedintight
against the face of the piston •Thegripper wedges do not become too dirty •Thatthewedgeteethdonotweartoobadly.
The autogripper wedges are designed for reuse, but eventually need replacing.
•Beforeplacingthetensionerontothecable,ensure the cable has minimal dirt and or dust on its surface. This dirt and dust will make it harder for the wedges to grip the cable.
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Section3-Page9May 2013
Cable Tensioner Mark2
For tensioning cables and installing plates
Speci�cationsA light weight and unique way for pre-loading cablebolts,theDSICableTensionerMark2gripsthe end of the cable bolt and tensions it, leaving only a short tail protruding from the bearing plate (approx. 6"). The Cable Tensioner is a single hydraulic ram driven by an air/hydraulic pump or by machine hydraulics.
•Thejackweighs25lbs.Theentirekit(jack and pump) weighs 51lbs.
•Twogriphandlesallowforoperationby one person.
•Unitlocksonthecable,untillanyardispulled to release spring loaded grippers.
•Canbeconfiguredforallcablebolts,from0.6"to0.7"andtheDSI0.9"HITENcablebolt.
•Capacity:48,500lbs•Bleedoff:15%i.e.cablelock-offloadis85%
of pulling force due to seating loss. (for a typical 12' bolt)
OperationInstalltheplateandwedgebarrelwithwedgeonthe end of the cable bolt.
PushtheCableTensioneron.Itwillself-lockontothe cable.
Tension bolt to the desired load per hydraulic gage included with the unit.
After stressing, the Cable Tensioner is easily removed by pulling on the lanyard to release the internal grippers.
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Section3-Page10 May 2013
Installation Guidelines•28mmholediametersarepreferred.•Holedepthiscritical.Holedepthshouldbe
approximately 155mm shorter than the bolt length.
•Thisallowsforsufficienttailtofitaccessories,roof plate, collar/wedges & Tensioner Unit.
•Afterinsertionofthechemicalanchorstheboltis rotated through the anchors while pushing the bolt, fully, to the back of the hole.
•Itisimportanttofollowthechemicalmanufacturers recommended mixing and hold times as printed on the chemical anchor cartons.DONOTOVERMIX.
•ThetensionerunitisconnectedtotheHI-TENStrand Bolt and tension applied.
•ForfurtherdetailsrefertoDSI’sTensionerUnituser instruction guide.
Standard Lengths & Packaging•StandardHI-TENStrandBoltslengthsrange
from 4100 to 8100mm.•Collar/wedgeassembliesaresupplied
separately to the bolt.•Non-standardrequirementsareavailableby
negotiation.
HI-TEN Strand Bolt
General Features•TheDSIHI-TENStrandBoltisacabledesigned
to be installed as a long rock bolt which is capable of being post-tensioned at the face, or out-bye, to loads of up to 27 tonnes using theDSITensionerUnit.
•TheHI-TENStrandBoltismanufacturedfrom21 wire strand having a 12mm square, for mixing chemical anchors, welded to one end of the strand.
•TheHI-TENStrandBolthasaspecialcollarand segmented wedge, which can sustain collar loads of between 57 and 60 tons.
•TheHI-TENStrandBoltisdesignedforhighpre-tensioning using a point anchor system.
•Iffullencapsulationisrequired,extraslowspeed chemical anchors of 20 minutes set time are available.
•TheHI-TENStrandBoltcanalsobeeffectivelyused with cementitious grouts.
•TheHI-TENStrandBoltconceptallowsalonger than seam height bolt to be installed at up to 30° from the vertical at the face, or out-bye, to supplement existing strata reinforcement. Compatible domed plates are availabletobeusedwiththeHI-TENStrandBolt.
•TheHI-TENStrandBoltsystemispatentpending.
Physical Properties
Yield Strength 108,000 lbs
Ultimate Tensile Strength 124,000 lbs
Uniform Elongation 3-4%
Mass Per ft 1.90lb
Cable (Strand) Diameter 0.9"
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Section3-Page11May 2013
The Wedge Anchorage of the Cable Bolt
The anchorage of most cable bolts consists of a wedge barrel and a 2- or 3-part wedge. The wedge segments grip the cable by means of tooth shaped threads which are forced into the surface of the cable wires.
Warning:Iffrictionincreases(duetocorrosion),a larger F will reduce the clamping force. As V increases all other forces can only increase if thewedgecanseatdeeperintothebarrel.Ifthewedge is restrained to do so (i.e. by corrosion or dirt-accumulation), the clamping force can not increase with the pulling force causing slippage when the load on the cable bolt gradually increases during service life.
To avoid slippages during use, it is important that the cable bolt is fully stressed at time of installation to a force equal to 0.5 Fu. (i.e. 50% of the capacity of the cable)
The clamping force W is highly dependent on the friction between wedge and wedge hole. For normal friction conditions, the clamping force W is more than 4 times the cable pulling force V and it adjusts with the pulling force V.
When a wedge is properly seated, radial cracks may develop indicating adequate seating.
ThewedgecanbesuppliedwitharubberO-ringor a metal spring ring holding the wedge segments together.
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Section4-Page1May 2013
Friction Stabilizers
Nominal sizes 33mm, 39mm and 46mm
FS-33 FS-39 FS-46
Taper Diameter A 11/8" (28mm) 13/16" (30mm) 11/2" (38mm)
Taper Length B 23/8" (60mm) 21/2" (65mm) 21/2" (65mm)
Slot Width C 1/2" (13mm) 5/8" (16mm) 7/8" (22mm)
Steel Thickness D 3/32" (2.5mm) 3/32" (2.5mm) 1/8" (3mm)
Bolt Size E 15/16" (33mm) 11/2" (39mm) 113/16" (46mm)
FS-33 FS-39 FS-46
Recommended Nominal Bit Size13/16" to 15/16" (31 to 33mm)
13/8" to 11/2" (35 to 38mm)
111/16" to 13/4" (43 to 45mm)
Available Tube Lengths3' to 8'
(0.9 to 2.4m)3' to 10'
(0.9 to 3.0m)
3' to 12'
(0.9 to 3.7m)
Typical Breaking Capacity24,000 lbs (107 kN)
28,000 lbs (124 kN)
40,000 lbs (178 kN)
Minimum Breaking Capacity16,000 lbs
(71 kN)20,000 lbs
(89 kN)30,000 lbs (133 kN)
RecommendedInitialAnchorage3 to 6 tons
(27 to 53 kN)3 to 6 tons
(27 to 53 kN)6 to 10 tons (53 to 89 kN)
Ultimate Axial Strain Typical 16%
Technical Data
Dimensions
All dimensions nominal
18” & 24” (0.46 m & 0.61 m) utility hangers also available - not intended for ground support Also available hot dip galvanized to ASTM A123, CSA G164 speci�cations
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Section4-Page2 May 2013
Installation Accessories
Friction Stabilizers
Standard Driver Tool - for Stopers/Jacklegs•with7/8" round x 4¼" long shanked end•availableinlowprofiledesign(9¼" long)•L=FS-33:13",24",36"and42"overall FS-39: 13", 24", 36" and 48" overall FS-46: 13", 24" and 36" overall
Plate Washers•minimumA-36material(36,000psiyield)•A=6"square•B=FS-33&FS-39:3/16" thick; FS-46: ¼" thick•C=FS-33:36mm(17/16") diameter FS-39: 41mm (15/8") diameter FS-46: 48mm (17/8") diameter
Female Driver Tool - for Stopers/Jacklegs•with7/8" hex socket•availablein12° and 11° tapers•L=FS-33:9¼" overall FS-39: 9¼" overall FS-46: 9¼" overall
Threaded Driver Tool - for Mechanized Bolters•withR32andR38ropethread•availableinlowprofiledesign(9¼" long)•L=FS-33:18",24"and32"overall
FS-39: 18", 24" and 32" overallFS-46: 18", 24" and 32" overall
Female Threaded Driver Tool - for Mechanized Bolters•withR32andR38ropethreadsocket•L=FS-33:7½", 9¼" and 14" overall FS-39: 7½", 9¼" and 14" overall FS-46: 7½", 9¼" and 14" overall
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Section4-Page3May 2013
Undersize Holes-Iftheholesizeistoosmallrelative to the friction size then it becomes extremelydifficulttoinstallthebolt.Theboltcanbe damaged i.e. kinked or bent when installed. Undersized holes are usually caused by worn bits and/orwrongbitsizesbeingused.Ifintegralsteelis used with a stoper or jackleg, the hole diameter decreases with each change of steel (normal practice requires smaller bits be used as one drills deeper into the hole). With each reduction in hole diameter the anchorage capacity increases. Integralsteeloftenresultsincrookedholesandshould be avoided whenever possible.
Drive Times - For a typical 5 or 6 foot friction bolt, a stoper or jackleg will drive the bolt into the hole in 8 to 15 seconds. This drive time corresponds to proper initial anchorages of the stabilizer. Faster drive times should serve as a warning that the hole size is too large and thus the initial anchorage of the bolt will be too low. Longer drive times indicate smaller holes sizes probably caused by bit wear.
continued
Installation Quality Guidelines
Friction Stabilizers
The following are items to be aware of when using/installing friction stabilizers:
Type of Ground - The nature of the ground must be evaluated. Soft strata requires a longer anchorage length to be effective. Soft ground results in larger hole sizes for a given bit size (due to bit rattling and reaming).
Scaling - The ground should be thoroughly scaled (i.e. barred down) before drilling and bolting. Periodic re-scaling may be required while drilling.
Strength and Yield Capacity of Bolt -The mechanical properties of the bolt should be appropriate for the ground conditions, bolt length and bolting pattern. Pull tests should be performed to determine initial anchorage of the friction bolts.
Proper Grade Plates - Thin or weak plates will deform at low bolt tension. The bolt could also rip through the plate during installation or by bolt loading. Plates should meet ASTM F432 specs.
Hole Condition - The hole should be cleaned and examined to ensure the friction bolt will insert smoothly. Variation in hole diameters (due to differing strengths of rock strata or excessively fragmented ground) can yield variations in anchorage capacities at various elevations.
Hole Length-Ifholesaredrilledtooshortthenthe bolt will stick out of the hole and the plate will not make contact with the rock surface. Damage to the bolt will result if an attempt is made to drive the bolt further than the hole length will permit. The hole should thus be a few inches deeper than the bolt length being used.
Oversize Holes - The hole size required for the friction stabilizer is the most crucial aspect of the installation. The holding power of the bolt relies on the fact that the hole is smaller than the diameter of the bolt. The larger the hole relative to the bolt diameter, the less the holding force (at least initially).Oversizedholescanbecausedbyusingthe wrong bit size, leaving the drill running while �ushing the hole, soft ground (faults, gouge, etc.) and bent steel.
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Section4-Page4 May 2013
Bit Selection - Button bits are commonly up to 2.5mm larger than their slated size. A 37mm button bit may in reality be 39.5mm in diameter when new. This is too large for an SS- 39 friction. Button bits do wear quickly however, increasing anchorage capacity and increasing drive times. Crossor“X”bits,ontheotherhand,aresizedtrueto stamped size usually within 0.03". They hold their gauge very well but tend to drill slower than button bits. They are preferable to button bits for friction installation where possible.
Perpendicular Installation - Bolts should be installed as near perpendicular to the rock surface as possible. This ensures the welded ring is in contact with the plate all round. Bolts not perpendicular to the plate and rock surface will result in the ring being loaded at a point which may cause early failure. Unlike other rock bolts, spherical seat washers are not available to correct for angularity with frictional stabilizers.
Installation Driver Tools - Driver tools must transfer percussive energy to the bolt during installing, not rotational energy. This is opposite to most other forms of ground support. The shank end of the driver must be the proper length to contact the drill piston in stopers and jacklegs (i.e. 4¼" long for 7/8" hex drill steel). The shank end on the drivers is round so as to not engage the rotation of the drill. The driver tools must have the properendshapetofitintothefrictionwithoutbinding and causing damage to bolt during installation.
Education - Proper education of mining personnel and supervisors is mandatory. As manpower turnover is relatively frequent in bolting crews, education must be continuous. An informed workforce will save money in the long run.
Monitoring-Installationmustbemonitoredto ensure proper procedures and quality are maintained. Pull-test measurements should be routinely conducted on friction stabilizers to check initial anchorage values.
Installation Quality Guidelines continued
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Section4-Page5May 2013
OMEGA-BOLT®
General Features
•Standardlengthsavailableinclude5ft,6ft,7ft,8ft,10ft,12ft,2.4m,3.0m
•Standardpackof100
Standard Lengths & Packaging
* 1 tonne = 1.1 ton
•TheDSIOMEGA-BOLT® is an expandable rock bolt with excellent elongation properties designed to accommodategroundmovement.TheOMEGA-BOLT® is a folded steel tube with a welded ferrule on each end.
•TheOMEGA-BOLT®issafeandeasytoinstall.TheOMEGA-BOLT® is inserted into the drilled hole and in�ated using high pressure water.
•TheOMEGA-BOLT® is in�ated to the exact shape of the drilled hole and can tolerate a large variation in hole diameter.
Physical Properties12 Tonnes Standard
12 Tonnes Plus 16 Tonnes Plus24 Tonnes Standard
24 Tonnes Plus
Minimum Breaking Load (kN) 120 115 150 240 220
Minimum Elongation 10% 20% 20% 10% 20%
Pro�le Diameter (in) 1.08 1.08 1.42 1.42 1.42
Material Thickness (in) 0.078 0.078 0.078 0.118 0.118
Hole Diameter Range (in) 11/4 to 11/2 11/4 to 11/2 1.7 to 2.05 1.7 to 2.05 1.7 to 2.05
OptimalHoleDiameter(in) 13/8 to 11/2 13/8 to 11/2 13/4 to 2 13/4 to 2 13/4 to 2
In�ation Pressure 300 bar 300 bar 300 bar 300 bar 300 bar
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Section4-Page6 May 2013
OMEGA-BOLT® continued
Custom Protective CoatingsIngeneral,regularexpandablerockboltsarenotresistanttocorrosiveenvironments.Toalleviatethisprobleminminingandtunnelingapplications,DSIisusingaspecialcoatingthatisolatesandactivelyprotectsthesteel. Neither coating interferes with normal installation procedures.
Zinc Epoxy CoatingZincCoatedOMEGA-BOLT® rock bolts are recommended for mid-term support in tunneling, civil engineering and mining applications, where non acidic to slightly acidic corrosive environments can be expected.
This coating consists of a zinc rich epoxy coating that acts as a physical barrier as well as a galvanic protection against corrosion.
Product Application
•HighHumidityorgroundwater
•Alkaline(lowpH)
•Basic(highpH)
•HighAbrasiveEnvironment
Polymer Acid Impervious CoatingPolymercoatedOMEGA-BOLT® rockbolts are endorsed for mid-term support in tunneling, civil engineering and mining applications, in most environments, where highly acidic corrosive environments are found.
This polymer coating creates a physical barrier that is impenetrable by most acids, bases, alkalizes and highly electronegative solutions. This includes but is not limited to sulfuric acid, hydrochloric acid and sodium hydroxide. This coating is also highly abrasion resistant.
Product Application
•HighlyAcidicandBasicSolutions(H2SO4,HCl,NaOH)
•HighAlkalineSolutions
•HighAbrasiveEnvironment
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Section4-Page7May 2013
Omega PumpOmega PumpOmega Pump
Hydraulic Pump
Electric Pump
Inlet Air Pressure Range Outlet water psi
70 to 100 psi280 to 300 bar
(4060 to 4350 psi)
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Section5-Page1May 2013
70,000 lbs 100,000 lbs 2.67 lbs/ft
Gr.
100
( Gr.
690/
825) (310 kN) (445 kN) (3.98 kg/m)
DYWIDAG THREADBAR® (Black & Galvanized)
#6 (19mm) through #14 (44mm)
Dimensions
Technical Data
#6 #7 #8 #10 #11 #14
Nominal Bar Size E3/4"
(19mm)7/8"
(22mm)1"
(25mm)11/4"
(32 mm)13/8"
(35mm)13/4"
(44 mm)
Max. Bar Diam. F0.86"
(21.8 mm)0.99"
(25.1mm)1.12"
(28.4mm)1.43"
(36.3mm)1.61"
(40.9mm)1.86"
(47.3mm)
Nominal Size Yield Strength (min.) Ultimate Strength (typ.) Nominal Weight
Gr. 75 (Gr. 517/ 690)
#633,000 lbs (146 kN)
44,000 lbs (195 kN)
1.50 lbs/ft (2.24 kg/m)
#745,000 lbs (200 kN)
60,000 lbs (270 kN)
2.04 lbs/ft (3.04 kg/m)
#859,300 lbs (263 kN)
79,000 lbs (350 kN)
2.67 lbs/ft (3.98 kg/m)
#1095,300 lbs (425 kN)
127,000 lbs (564 kN)
4.30 lbs/ft (6.41 kg/m)
#11117,000 lbs
(520 kN)156,000 lbs
(693 kN)5.31 lbs/ft (7.91 kg/m)
#14**169,000 lbs
(750 kN)225,000 lbs (1000 kN)
7.65 lbs/ft (11.38 kg/m)
Gr. 100 (Gr. 690/ 825) #870,000 lbs (310 kN)
100,000 lbs (445 kN)
2.67 lbs/ft (3.98 kg/m)
All dimensions in accordance with ASTM F432 & CSA M430-90 speci�cations
Also available hot dip galvanized to ASTM A123 and CSA G164 speci�cations All mechanical and physical properties in accordance with ASTM A615-92b and CSA G30.18M-92 speci�cations THREADBAR® is left hand (LH) thread only unless otherwise noted ** Right hand (RH) thread
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Section5-Page2 May 2013
Tens
ion
(Lb
s.)
Torque (Ft. - Lbs.)
Threadbar Torque Tension Relationship
0 100 200 300 400 500 600 7000
5,000
10,000
15,000
20,000
25,000
30,000
800 900 1000 1100
#5 Grade 150
#8 Grade 75
#9 Grade 75
#10 Grade 75
#11 Grade 75
#14 Grade 75
#18 Grade 75
#6 Grade 75
DYWIDAG THREADBAR®
THREADBAR® Torque Tension Relationship
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Section5-Page3May 2013
THREADBAR® Spinners & Nutrunners
THREADBAR® Hardware
(Black & Galvanized)
Hardware #6 #7 #8 #10 #11 #14
Anchornut stock stock stock stock stock n/a
Hex Nut-Cast stock stock stock stock stock n/a
Hex Nut - Machined
special order special order special order special order special order stock
Coupler - Cast stock stock stock n/a n/a n/a
Coupler - Machined
special order special order special order stock stock stock
Bevelled Washer
stock stock stock stock stock stock
Eyenut - Cast n/a stock stock n/a n/a n/a
Eyenut - Machined
n/a n/a n/a special order special order stock
Expansion Shell
n/a special order special order special order n/a n/a
THREADBAR® Spinners & Nutrunners #6 #7 #8
OvalSpinner × 7/8" Hex Socket × 7/8" Hex Shank
stock stock stock
Threaded Spinner × 7/8" Hex Socket × 7/8" Hex Shank
special order
special order
special order
Nutrunner × 7/8" Hex Socket × 7/8" Hex Shank
stock stock stock
Other sizes available by special orderT-thread, rope thread, 1" hex, etc .bar spinners and nutrunners available by special order
Also available hot dip galvanized to ASTM A123 and CSA G164 speci�cations.
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Section5-Page4 May 2013
#5 #6 #7 #8 #10
Nominal Diameter E5/8"
(15mm)3/4"
(19mm)7/8"
(22mm)1"
(25mm)11/4"
(32mm)
Thread Diameter F 3/4"
(19.0mm)7/8"
(22.2mm)1"
(25.4mm)11/8"
(28.6mm)13/8"
(34.9mm)
Cross-Sectional Area F 0.31 in2 200mm2
0.44 in2 285 mm2
0.60 in2 385mm2
0.79 in2 500mm2
0.1.20 in2 800mm2
#5 #6 #7 #8 #10
Yield Strength min. 23,000 lbs (100 kN)
33,150 lbs (145 kN)
45,100 lbs (200 kN)
58,900 lbs (260 kN)
90,000 lbs (408 kN)
Ultimate Strength 28,800 lbs (130 kN)
41,300 lbs (188 kN)
56,300 lbs (255 kN)
73,800 lbs (335 kN)
112,500 lbs (510 kN)
Nominal Weight 1.04 lbs/ft (1.55 kg/m)
1.50 lbs/ft (2.36 kg/m)
2.0 lbs/ft (3.04 kg/m)
2.7 lbs/ft (3.93 kg/m)
3.4 lbs/ft (5.06 kg/m)
Ultimate Axial Strain 5% to 8% typical
Cold Rolled Threads 5 threads per inch for all bar sizes
This bar exceeds the physical properties of ASTM A615
All Thread Rebar (Grade 690)
Nominal 5/8" (15 mm) through 11/4" (32 mm)
Dimensions
Technical Data
Hardware
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Hex Nut Hemispherical
(Anchor) Nut
Coupler
Section5-Page5May 2013
Fillet on Forged Head Rebar - Forged head rebar boltsshouldbeinspectedtoensureafilletof1/8" radius is present where the shaft connects to the forged head. Sharp transitions may weaken the bolt.
Shelf Life of Resin - Resin has a practical shelf life. Although the chemical ingredients do not change with time, most resin cartridges are water based and thus dry out with age. The shelf life thus refers to the workability of the resin cartridge. Aged cartridges are still effective; however, because they are drier, the ingredients are crumbly and harder to mix properly. The bolts are moredifficulttoinsertthrougholdresinaswell.Set times may also be reduced somewhat with older resin. The resin cartridge box will have the manufacturing date written on it. Resin should be used as soon as possible. Stock should be rotated so older resin does not accumulate.
Storage - Resin should be stored in a cool location to maximize shelf life. Elevated temperatures dry out the resin cartridges.
Temperature and Set Time - Temperature greatly affects the gel (set) time of resin cartridges. A 20ºF rise in temperature reduces the set time by approximately 50%. Conversely, a 20ºF drop in temperature will approximately double the set time of the resin. Resin should be stored and used at room temperature whenever possible.
continued
Installation Quality Guidelines
Rebar and DYWIDAG THREADBAR® Bolts
The following are items to be aware of when using/installingresingroutedrebarandDYWIDAGrock bolts:
Type of Ground - The nature of the ground must be evaluated. Soft strata requires a larger plate washer bearing area and a longer anchorage length if point anchored. Soft ground results in larger hole sizes for a given bit size (due to bit rattling and reaming). This can adversely affect the mixing of the resin.
Scaling - The ground should be thoroughly scaled i.e. barred down, before drilling and bolting. Periodic re-scaling may be required while drilling.
Strength and Yield Capacity of Bolt - The mechanical properties of the bolt should be appropriate for the ground conditions, bolt length and bolting pattern. Pull tests should be performed to determine yield and ultimate strengths of the bolts as well as resin anchorage capacities.
Condition of Rebar Threads - Threaded rebar shouldbeinspectedbeforeinstallation.Increasedfriction on the threads can adversely affect tensioningoftherebar.DYWIDAGthreadsaregenerally immune to defects and damage.
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Section5-Page6 May 2013
Resin Size, Bolt Size and Hole Size - The size of the bolt relative to the cartridge and hole size is critical. The above chart gives the recommended combinations of bar, hole and cartridge sizes. The numbers in the chart refer to the yield i.e. length of encapsulation of the bolt per 12" resin cartridge. Blank spaces are non-recommended bolt and hole combinations.
Hole Condition - The hole should be cleaned and examined to ensure the resin cartridges and the rock bolt will insert smoothly.
Hole Length-Ifholesaredrilledtooshortthenexcessive lengths of the bolt will stick out of the hole. The plate may not be effectively installed. Ifholesaredrilledtoolongthenresinwillbewasted at the end of the hole. This will reduce the encapsulation length for a point anchored rock bolt and can reduce the load capacity of the bolt. The bolt may not be able to be tensioned adequately.
Oversize Holes -Iftheholesizeistoolargerelative to the bolt size, poor mixing of the resin will result. The grout yield per resin cartridge will also be reduced. This is particularly important withpointanchoredbolts.Oversizedholescanbe caused by using the wrong bit size, leaving the drill running while �ushing the hole, soft ground (faults, gouge, etc.) and bent drill steel.
Undersized Holes - Undersized holes will result ininsufficientbondingofthebolttotherock.Difficultiesininsertingtheboltintotheholemayalso be experienced. Undersized holes are usually caused by worn bits and/or wrong bit sizes being used.
continued
Installation Quality Guidelines continued
Resin UsageHole diameters (inches)
ASTM 1" 11/4" 13/8" 11/2" 15/8" 11/2" 15/8" 13/4" 17/8" 2" 21/4"
A615 Cartridge Diameter (mm)
Bar Size 23 28 32 32 32 35 35 40 40 40 40
#6(3/4") 18.5" 13" - - - - - - - -
#7(7/8") - 16" 14" - - 12.5" - - - - -
#8(1") - 22.5" 17.5" 12.5" - 15.5" 11.5" 12" - - -
#10(1-1/4") - - - 15.5" - 18.5" 17" 13" - -
#11(1-3/8") - - - - - - - 23" 16" 12" -
#14(1-5/8") - - - - - - - - - - 11" • Chartindicatesinchesofboltencapsulationbasedonstandard12"lengthLoksetresincartridge.• Thischartispreparedasaguidebasedonaveragedrillingconditionsinconcreteorrock.Fieldtrialsshouldbeconducted to determine actual resin requirements.• Example:Whena11/2" hole is drilled, using a 1" diameter deformed rebar bolt, one 35 mm x 12" cartridge will grout 15.5 linear inches of the bolt.• Inchesgroutedincludeatypical15%loss.• Blankspacesarenon-recommendedbolt/holecombinations.
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Section5-Page7May 2013
Spinning of the Bolt - refer to Resin and Cement cartridge section (Section 9).
Underspinning - The bolt is spun into the resin cartridge to mix the two separate components (the catalystandtheresinmatrix).Impropermixingwillresult in a poor installation. Underspinning results ininadequatemixingoftheresinandinsufficientgellingmayoccur.Operatorswillcomplaintheresin will not set up.
No Spinning-Iftheboltissimplypushedthroughthe resin cartridge without rotation, a detrimental effect may be caused by the resin catalyst being picked up by the end of the bolt. This may cause both undercatalysed and overcatalysed areas to be created.
Overcatalysedresinyieldsanunderstrengthcrumbly type of anchor. Undercatalysed resin stayssoftvirtuallyindefinitelybecauseitdoesnot have enough catalyst to speed up the gelling reaction.
Overspinning-Overspinningwillgrinduptheresin as it sets. Poor anchorage will result. The bolt may not be able to be tensioned properly. Consequently, the operator will once again complain the resin is not setting up!
Tensioning with Fast/Slow Set Resins - As a general guideline, when bolts are to be tensioned, fast set resin should be used at the toe of the hole for 1/3" the bolt length (minimum 24"). Slow set resin is used for the remaining 2/3" length to fully encapsulate the bolt. The slow set must be sufficientlyslowtoallowtheplatewasherandnut to be installed and the bar tensioned before the resin set up. Rebar bolts can be tensioned by torquingthenut.DYWIDAGboltsrequireagreatertorque to achieve adequate tension.
continued
Installation Quality Guidelines continued
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Section5-Page8 May 2013
Proper Grade Plates - Thin or weak plates will deform at low bolt tension. The bolt could also rip through the plate during installation or by bolt loading. Plates should meet ASTM F432 standards.
Perpendicular Installation - Bolts should be installed as near perpendicular to the rock surface as possible. Bolts not perpendicular to the plate and rock surface will be marginally weaker and will not be pretensioned properly. Spherical seat washers are available to correct for angularity.
Hardened Steel Washers - Hardened steel washers should be used between the forged head or nut and the plate washer. The washer reduces friction and enhances tensioning in threaded rebar. Minimum grade should be ASTM F436 Type 1 or 2 and hole size in plate washer should be no more than 3/8" diameter larger than bolt size if a spherical seat washer is not used.
Rock Bolt Dollies-Installationdolliesshouldonly transfer rotational energy to the bolt during installation, not percussive energy when drills are used to rotate the bolt. The shank end of the dollie must be short enough to avoid contact with the drill piston in stopers and jacklegs. Typically, these rock bolt dollies have a 7/8" hex shank and are only 3¼" long. Besides being the proper size for the rock bolt head or nut, the dolly must also have sufficientsocketdepthtoallownutstoberunontothe threaded portion of the bolt.
Gloves-Glovesandeyewearshouldbewornwhen handling resin.
Odour - Polystyrene monomers in the resin have a particularly noticeable smell. Properly installed bolts (i.e. properly set up resin) will have no odour. The smell of styrene underground implies broken cartridgesattheworkplaceorinsufficientlymixedresin in the hole.
Education - Proper education of mining personnel and supervisors is mandatory. Resin anchored bolts in particular require skilled miners. As manpower turnover is relatively frequent in bolting crews, education must be continuous. Forget this and you waste money.
Monitoring-Installationmustbemonitoredto ensure proper procedures and quality are maintained. Pull-test measurements should be routinely conducted on resin anchored bolts. Torque measurements can also be taken on threaded rebar bolts and monitored for changes. Torque testing is best done by a crew supervisor (or dedicated technician) while visiting work areas during his rounds.
Packaging - Vendors must package bolting products in an acceptable manner both for convenience of use as well as prevention of damage to the product during shipping and handling. Particular care must be paid to wrapping of the thread ends to prevent damage and corrosion. Resin cartridges must be robust so as to not rip or tear during normal handling. Good packagingcostsmorebutisworththeadded cost by reducing wastage on site.
Installation Quality Guidelines continued
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Section6-Page1May 2013
SanJuan EZ TRUSS
ASTM F432 gr6 -Nominal 30 Ton Capacity
TheDYWIDAGSanJuanEZTrusscombineseaseof installation with superior support performance. Itcanbeinstalledsafelyfromthebolterwithoutexposure to unsupported roof at anytime.
InstallationThe truss shoe and the inclined bolt can be installedfirstandseparatelyfromthetruss.A piece of 0.6" cable is inserted into the end of truss shoe automatically engaging the cable grip wedges. This can be done without leaving the protection of the bolter. Then both cables are fed through the cable truss coupler in the middle. Wedges are installed into barrels against the cable truss coupler and stressing may commence using a hydraulic tensioning unit. The truss shoeisdesignedtoaccommodate#7or#8barand angles between 45 and 60 degrees to the horizontal.
Patent application pending in USA
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Section6-Page2 May 2013
Cable Truss•Fullload“dog-bone”cablecoupler•Hydraulicjacktotension•Ring-eyeplateorwoodatbendstotransfer
corner forces
Patented in US and Canada
Trusses and Slings
Bar Sling•FullLoadTrusscoupler•Torquewrenchtotensiontrussatcoupler
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May 2013 Section6-Page3
UsesCable slings can be used as primary ground support in drifts, for the construction of sill mats and for wrapping pillars. Cable slings are particularly useful in soft, yielding ground or in areas prone to rockbursts.
MaterialsEach sling is comprised of a length of cable (see chart below) with drive blocks or buttons, 2 pc. of 5' (1.5m) 39mm friction stabilizers and a minimum of 6 cement cartridges (32mm diameter), three per hole. Cables can be either 0.5" (12.7 mm) or 0.6" (15.2 mm).
Cable Slings
Cable Length and Spacing
InstallationHoles are always drilled 8' (2.4m) in length and are generally oriented at approximately 45 degrees. Three cement cartridges are immersed in water, andwhenready,insertedintothefirstholeandtampedtotheend.Oneendofthecableistheninserted manually into the hole. The cable is slid into the gap in the end of the friction stabilizer and the bolt is fully installed. The same process is repeated for the other end of the cable.
Ifproperlyinstalledthefrictionstabilizerswillholdapproximately 1 ton per foot of length and will immediately tension the cable. Blocks or wedges can be inserted between the cable strand and the rock. After the cement cures the full strength of the cable can be mobilized.
Distance Between Holes Drill Hole Length Total Length of Cable
11.5' (3.5m) 8' (2.4m) 27.5' (8.3m)
13.1' (4.0m) 8' (2.4m) 29.1' (8.8m)
14.8' (4.5m) 8' (2.4m) 30.8' (9.3m)
16.4' (5.0m) 8' (2.4m) 32.4' (9.8m)
18' (5.5m) 8' (2.4m) 34' (10.3m)
19.7' (6.0m) 8' (2.4m) 35.7' (10.8m)
InMexicocableslingsaresuppliedcompletyassembledandreadytoinstall.
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Section7-Page1May 2013
DCP Bolt
Double Corrosion Protection by Grouting
The DCP bolt combines ease of installation with durable long-term corrosion protection.
•Thehexdrivenutanddomedwasherareintegrated.
•Thenuthasgroutingchannelsthroughit.•Thedomedwashertransitionstoasteeltrumpetthatprovidesasealingfitwithadeformed plastic sleeve.
•Thedeformationsoftheplasticsleevecenterthe bar inside, allow grout to �ow inside and outside the sleeve.
•Thedeformationsaredesignedtotransfertheload from the inner to the outer grout.
•Thesleeveisaprotectivebarrieragainstcorrosive elements.
•Theboltisinstalledusinganexpansionshellfor immediate support.
Patent application �led
InstallationThe grout nozzle is easily attached over the end ofthebarandsealedagainstthedrivenut.Groutis injected through the nut. The bar is completely encased in grout even at the critical inside of the nut for maximum corrosion protection.
Technical DataBar Size/Grade #7 (22 mm) Gr. 60 #7 (22 mm) Gr. 75 #7 (22 mm) Gr. 100
Thread Yield Strength, min. 27,700 lbs (123 kN) 34,700 lbs (154 kN) 46,200 lbs (205 kN)
Thread Yield Strength, min. 41,600 lbs (185 kN) 46,200 lbs (205 kN) 57,800 lbs (267 kN)
Recommended Hole Size 13/4" (45 mm) or 2" (51 mm)
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Section7-Page2 May 2013
InstallationSlide a plate over the top of the bolt and insert the pre-assembled DCP bolt into the hole until the domed plate bears against the strata. Do not rotate the bolt while inserting. Important: ensure that the HDPE sheath does not scrape against the collar of the hole.
Pre-LoadingOncetheplateishardagainsttherockface,applyleft-hand rotation to engage the expansion shell. Pre-load the DCP bolt to the required torque. Use a torque wrench with a 36mm (13/8") deep socket. Note: percussion must not be used for tightening the nut.
Load Testing (if required)A minimum of 30mm (1.2") of bolt thread must protrudebehindthenut.Installthetestingequipment and perform loading tests – however, do not overstress the bar. Warning: never stand behindthejackduringtestingandreadDSI’sSafetyandOperatingInstructionpriortotesting.
Post-GroutingThe cement grout mixture must be thick enough to adhere to an overturned hand (mayonnaise consistency). The optimal water:cement ratio is0.30:1byweightforTypeI-IIcement.Thisisequivalent to 0.3 lbs of water per 1 lb of cement or 3.4 gallons of water per 94 lb sack of cement. A typical 2 or 3 stage progressive cavity pump can pump a 0.30:1 water:cement ratio grout through a ¾" hose for 15m (45-ft) and 6m (10-ft) of bolt.
continued
DCP Bolt
Typical Installation Procedure
DescriptionTheDSIDoubleCorrosionProtectedBolt(DCPBolt) is a pre-tensioned & post-grouted rock bolt. Itallowsforimmediategroundsupportusinganexpansion shell and has a high density corrugated polyethylene (HDPE) sheath along the bar length that provides long term corrosion protection and load transfer. The system can also be provided with triple corrosion protection (TCP Bolt) using special anti-corrosion bars, galvanizing or epoxy-coating.
ComponentsThe DCP Bolt comprises a 7/8" diameter steel bar pre-assembled with an expansion shell, corrugated polyethylene (HDPE) sheath attached to a grouting bell and domed hex nut (36mm A/F). The nut is slotted for post-grouting. The required dome plates are supplied separately and are generally ASTM F432 grade 2 or 3 material.
Bolt HandlingDCP bolts must be kept clean at all times. Care must be taken not to damage the HDPE sheath, grout bells and expansion shells during shipping and handling.
DrillingDepending on the size of the expansion shell, drill either45mmor50mm(1¾" or 2") holes the total length of the bolt plus 50mm (2"). Thoroughly �ush the hole with water after drilling. Ensure that the bearing surface for the dome plate is within ± 15 degrees from being perpendicular to the bolt.
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Section7-Page3May 2013
Typical Installation Procedure continued
Ifthegroutisthinnerthan0.3:1itmayrunoutofthehole.Ifthingroutiskeptintheholethewaterwill bleed away from the grout thus failing to fully encapsulate the bolt.
The normal post-grouting steps are:
•Preparegroutwithproperamountsofwaterand cement.
•Pumpsomegrouttotheendofthehose,check consistency and stop pumping. [InstallaballvalveinthehoseneartheChicagofittingtocontrolgroutflow.]
•AttachChicagofittingtoDCPboltgroutingadapter.
•ConnecttheDCPboltgroutingadapterontothe bayonet mount of the grouting bell, rotating to the right and tightening with the handle on the adapter.
•Openballvalveandrestartpumpingataslowto medium rate until grout appears around the plate.
•Stoppumpinganddisconnecttheadaptor.Important: if grout drains from the nut and/or the plate, the bolt must be grouted again with a thicker grout mix.
•Movetoanewbolt&repeatabovesteps.•Cleanthegroutadaptorthoroughlyafteruse.•Warning: when grouting, the operator should
wear the prescribed protective equipment in addition to gloves and safety glassed. Consult the applicable MSDS.
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Section7-Page4 May 2013
DYNA® Tork Bolt
DYNA® Tork bolt is designed with a spiral mixing bladetoensureultimatemixingofDSIresinintheborehole. This blade design has a dual propose: to mix the resin properly and provide anchorage for static ground support. The cone is designed to yield and transfer dynamic loads into the resin in rock burst conditions, absorbing the energy through controlled deformation. This ploughing effect through the resin will ensure that most of the kinetic energy in a rock burst is contained within the rock-mass. The DYNA® Tork bolt is the ultimate Dynamic Rock Support Solution for deep mining where it provides proper anchorage in a regular static mining environment, and ultimately yielding support in dynamic rock burst conditions.
Technologically Advanced –Unique Mixing Helix – Patent PendingDome Plate
1055ModifiedSmoothBar
Dynamic Bolt Energy Absorption: 15 kJ tested, 23 kJ tested, 30 kJ tested
1055 Modi� ed Steel
Elongation 10%
Yield Strength 448 MPa
93 kN65.000psi20,904 lb
Ultimate Tensile Strength660 MPa143 kN
65,700 psi32,160 lb
Recommended Domed Washer Plate 6.3mm × 150mm × 150mm 1/4" × 6" × 6"
Thread Diameter 19.05mm 3/4 in
Bore Hole Diameter 33mm
Hemispherical Pinnut (dia × len × hole dim) 46 mm × 18mm × 19mm
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Section7-Page5May 2013
DYWI® Drill Self-Drilling Bolt
TheDYWI® Drill Self-Drilling bolt is a fully threaded hollow bar that initially serves as a drill rod, utilizing a lost bit. The thread is made to 15010208. For use inunconsolidatedgroundorotherdifficultgroundconditions.
Excellent for spiling (fore-poling).
Bolt is drilled in and grout is pumped through the center hole with pumpable resin or cement grouts.
The couplers are designed to exceed the ultimate load of the bar by 20%. The couplers are designed to minimize the loss of drill energy.
Several drill bits are available. Most widely used is theEXXTungstencarbidechiselbitforhandlingUCT*upto12.5N/mm²(RQD100%)andupto50 N/mm²(RQD75%).
Standard length is 3m (9ft-10"). Longer lengths are available: 4m, 6m
*UCT is uncon�ned compressive strength
DSIHollowBarSystemistypicallyinstalledusingrotary percussive drilling. This technique enables high rates of installation, good directional stability and also helps to consolidate the grout within the borehole.
Rotationspeedsshouldbesufficienttocutatrueborehole (120-150 RPM for soil nails; 100-130 RPM for mini piles), as opposed to displacement of the soil with the drill bit through percussion and heavy feed pressures (driven installation). Drilled boreholes ensure enlarged grout bodies together with better permeation of the grout into the surrounding ground. Feed pressures on the drill rods should be regulated in accordance with the cutting performance of the drill bit.
Simultaneous Drilling and GroutingSuitableforgranularsoilsandfills.ThisinstallationmethodutilizesaGroutSwivel,groutpumpand drifter. The technique combines drilling and grouting as a single operation, ensuring that grout
is placed over the full length of the borehole. For ground conditions where borehole collapse is anticipated or where subsequent grout injection down the center of the bar is problematical, simultaneous drilling and grouting is the preferred solution.
Groutingpressuresshouldberegulatedtomaintain circulation at all times (typically up to 100 psi), with a small amount of grout return visible at the mouth of the borehole. Pressures in excess of 100 psi are generally only required for specialist applications (i.e. anchors in cohesive soils or mining applications).
The choice of grout pump varies between applications, but basic requirements are as follows:
a) thorough mixing of the grout – to avoid blockages at the drill bit,
b) delivery of a continuous volume – to ensure consistent grouting,
c)maintenanceofsufficientpressure.
Installation
Bar Size R25N R32N R32S R38N R51N
Diameter over threads [in] / [mm] 0.984 25 1.260 32 1.260 32 1.496 38 2.008 51
Cross sectional area of bar a) [in2] / [mm2] 0.378 244 0.614 396 0.756 488 1.111 717 1.455 939
Ultimate Strength [1000 lbs] 45.0 62.9 80.9 112.4 179.8
Yield Strength [1000 lbs] 33.7 51.7 62.9 89.9 141.6
Weight [lbs/ft] / [kg/m] 1.5 2.3 2.3 3.4 2.8 4.1 4.0 6.0 5.6 8.4
Maximum Drilling Depths c) [ft] / [m] 39.4 12 52.5 16 65.6 20 78.7 24 98.4 30
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Section7-Page6 May 2013
Self Drilling Bolt continued
Grout SwivelsGroutSwivelsareusedforsimultaneousdrillandgrout installation, to inject grout into the bore of a rotatingDSIHollowBar.Theunitcomprisesofaheat treated shaft (to withstand the impact energy from the hammer drive) and a housing into which thegroutispumped.Inletportswithintheshaftenable grout to be pumped into the bore of the bar.
A locator frame is required (bolted to the drill sledge) to prevent the housing from rotating with the shaft, as well as positioning it at the correct location to enable unrestricted operation of the hammer.
Accessories
Grout Swivel (rig installation)
Grout Swivel (hand held installation)
Diameters Available for Both Drill Bit TypesR25 1.65", 2"R32 2", 3"R38 3", 3.5"R51 3.5", 4.53"
Drill ToolingA range of drill accessories are available, to enable connection between the output drive of the drilling head andthedifferentDSIBardiameters.
Air Flush Shank (hand held installation) Balance Rod Reducing Coupler Reducing Coupler(with centre bridge)
EX / EXRHardened cross cut drill bit, suitable for the majority of applications including narrow bands of soft rock.(EXRdenotesretroflushversion)
Soil types: Fills, Shales, and Gravels.
EXXTungsten carbide chisel drill bit.EXXisthehardestdrillbit available, for strong rock, hard seams and concrete footings.
Rock types: Strong rock, MetamorphicandIgneousRocksi.e.SlateandGranite.
Drill Bits
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Section8-Page1May 2013
Threaded Fiberglass Bolts (Solid & Groutable)
Nominal 3/4" (20 mm) & 1" (25 mm)
Dimensions3/4" (20mm) Bolt 1" (25mm) Bolt 1" (25mm) Hollow Bolt
E Diameter 3/4" (20mm) 1" (25mm) 1" (25mm)
F GroutHoleDiameter not available not available 1/2" (12mm)
E Thread Size/Type 3/4" right hand 1" right hand 1" right hand
20" (500 mm) of each end is threadable with a nut.
3/4" (20mm) Bolt 1" (25mm) Bolt 1" (25mm) Hollow Bolt
Resin Type polyester / epoxy resin
Glass Type E - glass
Glass Content (by weight) 75% minimum
E-Modulus, minimum 5,075 ksi (35,000 MPa)
Breaking Strain, maximum 3% maximum
Cross Sectional Area 0.439in²(284mm²) 0.701in²(452mm²) 0.526in²(339mm²)
Tensile Strength, minimum 31,500 lbs (140 kN) 50,500 lbs (225 kN) 38,000 lbs (170 kN)
Shear Strength, minimum 6,200 lbs (28 kN) 11,000 lbs (45 kN) 10,000 lbs (45 kN)
Nut/Thread Strength, min. 18,000 lbs (80 kN) 20,000 lbs (90 kN) 19,000 lbs (85 kN)
Nut Break Out Torque 40 ft-lbs (55 Nm) 40 ft-lbs (55 Nm) 40 ft-lbs (55 Nm)
Weight 0.37 lbs/ft (0.55 kg/m) 0.59 lbs/ft (0.88 kg/m) 0.44 lbs/ft (0.66 kg/m)
Nut Dimensions (octagonal) 1.65" A.F. × 3.1" long (42mm A.F. × 80mm)
2" A.F. × 3.1" long (51 mm A.F. × 80 mm)
2" A.F. × 3.1" long (51mm A.F. × 80mm)
Fibreglass Plate 4.7" square x 3/4" thick
(120 square x 20mm thick)
Technical Data
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Section8-Page2 May 2013
•Afterinsertionofthechemicalanchors,theboltis rotated through the anchor(s) while being pushed to the back of the hole.
•Itisimportanttofollowthechemicalmanufacturer’s recommended mixing and hold times as printed on the chemical anchor cartons.DONOTOVERMIX.
•ForfurtherdetailsregardinginstallationproceduresrefertoDSI’s“PracticalGuide to Rock Bolting”.
Standard Lengths & Packaging•Standardboltlengthsrangefrom1200to
1800mm in 300mm increments.•Otherlengthsareavailablebynegotiation.•1200mmlongdowelsarepackedin10’sthen
palletized in lots of 1000.•1500and1800mmlongdowelsarepackedin
10’s then palletized in lots of 500.
Fibreglass Dowel Fully Formed Threaded & Ribbed FRP Dowels
General Features•Thedowelsarepullformed(matcheddie)fibreglassconstructionandareribbedoveritsfull length to provide maximum load transfer.
•Threadformisofasinusoidaltype,nominally150mmlongand25mmdiameter,andisfittedwith an integral drive nut with radial face.
•Allfibreglassdowelsaredesignedtobeused with chemical anchors and be fully encapsulated.
•Boltsover2400mminlengthareavailableinalldowel types by negotiation.
•AustralianPatentNumbers631881and65494are applicable to these bolts.
Installation Guidelines•26-27mmholediametersarepreferred.Holes
over 28mm diameter are not recommended.•Holedepthiscritical.Holedepthshouldbe
shorter than the bolt to allow for the height of the washer and nut.
Notes: - HD - High Density Version
- 20 and 22mm bolt diameters available
Physical Properties 12.5 Tonne Dowel 15 Tonne Dowel 20 Tonne Dowel 30 Tonne Dowel 38 Tonne Dowel
Ultimate Tensile Strength 125 kN 150 kN 200 kN 300 kN 380 kN
Nut/Thread Tensile Strength 55 kN 85 kN 85 kN 95 kN 95 kN
Single Shear Strength 45 kN 50 kN 57 kN 65 kN 74 kN
Nut Breakout Torque 30 ft/lbs 35 ft/lbs 40 ft/lbs 40 ft/lbs 40 ft/lbs
Mass per Meter (Std-HD) 650-800 gms 675-850 gms 720-875 gms 750 gms 775 gms
Nominal Bolt Diameter 20mm 20mm 20mm 20mm 22mm
Nominal Cross Sectional Area of Bolt
310 mm2 310 mm2 310 mm2 310 mm2 325mm2
Thread Length 150mm 200mm 200mm 200mm 200mm
Major Bar Diameter (thread) 25.4mm 25.4mm 25.4mm 25.4mm 25.4mm
Speci�c Gravity (grams/cm3) 1.7-2.0 1.8-2.1 1.9-2.15 1.95-2.2 2.0-2.25
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Section9-Page1May 2013
DescriptionGroundControlPourableResinGroutisa2com-ponent, free �owing polyester anchor. Each kit consists of a liquid resin supplied in a mixing pail, andacupofliquidhardener.TheGroundControlPourable ResinGroutisoutstandingforgroutingdowels and anchor bolts concrete, rock and masonry.
Oncecured,theproductformsaneffectivecorrosion barrier from a pH of 2 through to a pH of 11. Working compressive strength is obtained at six times the indicated pot life.
Speci�cationsWorking Compressive Strength: 65MPa,(9,500P.S.I.)Ultimate Compressive Strength: 83MPa,(12,000P.S.I)Example: 30cm,(12)ofgrouted#7rebarina3.0cm,
(1¼")holein4000P.S.I.limestone,hasanultimate pull strength of 107,000 N, (24,000 lbs.)
Speci�c Gravity: 1.8Shelf Life:
Four months under ideal storage conditionsPackaging: Pail of grout and cup(s) of hardenerKit Size:3.5L,(0.78Imp.Gal.),213cubicinchesPot Life:
17 min. at 30 degrees C, (86F)20 min. at 25 degrees C, (77F)24 min. at 20 degrees C, (68F)30 min. at 15 degrees C, (59F)37 min. at 10 degrees C, (50F)
Directions For Use1. Hole Preparation The holes should be drilled with rotary
percussion type equipment such that the hole side walls are not smooth. The drill hole must be clean and free from debris, oil and grease. The hole should be dry, but a good bond can be obtainedinwetorunderwaterholesifsufficientsidewall deformities exist.
2. Mixing Instructions Note the pot life-temperature relation and
proceed by suspending all solids in the grout followed by adding the cup(s) of hardener to the mixing pail of grout and stirring the mixture as rapidly as feasible until no streaking of the
hardener is observed in the grout-hardener mixture. The proper ratio is obtained when all of the hardener is added to the grout. UNDER NOCIRCUMSTANCESshouldanyforeignsubstance be added to the grout-hardener mixture.
3. Installation Pour the grout-hardener mixture into the drill
hole to a level about 2/3full.Insertthedoweloranchor bolt and work it back and forth to avoid airentrapment.Assumethefinalpositionofthedowel or anchor bolt, top up the hole with liquid grout and allow the grout to gel in that position. The grout will gel in one and one-half times its pot life at the given temperature. Working loads can be applied in six times the pot life.
4. Cleaning Cleaning of tools, spills or runs is best
accomplished before the grout has hardened by wiping off excess and further cleaning the surfaces with acetone (propanone), or another type of high grade mineral spirit, making certain that the surface is compatible with the spirit used. Remove empty containers from the job site and dispose of according to area regulations.
5. Caution This product is intended for industrial use
only. Avoid contact with eyes and prolonged contact with skin. Use protective measures. Incaseofeyecontact,flushwithwaterforatleast15minutes.Ifirritationdevelops,contacta physician. The kit contains: benzoyl peroxide, polyesterresin,styreneandinertfillers.Iftakeninternally, consult a physician immediately.
6. Formula for Determining Resin Requirements HoleVolume-BarVolume=AnnulusVolume
HoleVolume=3.1416xradiusofholesquared x length (in inches)
BarVolume=3.1416xradiusofbarsquared x length (in inches)
Example: Using a 1¼" hole and 1" bar 8' long Hole=3.1416x(1.25/2)2x(8x12)=118.08
cubic inches Bar=3.1416x(½)2x(8x12)=75.40cubic
inches GroutRequired=42.68cubicinches 213/42.68=4.99holesperkit
Ground Lok™ Pourable Resin Grout
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Section9-Page2 May 2013
FASLOC® Resin Cartridges
Polyester Resin Anchoring System
DescriptionTheFASLOC® resin in the cartridge is used to anchor bolts to the surrounding strata. This unificationoftheresin,boltandstratalayersprovides the necessary strength and rigidity to prevent sag by acting as a reinforcement which anchorstheindividualstratifiedlayersofrockintoa single high strength beam.
The two-compartment cartridge shown in illustration A above consists of a heat-sealed tubeofpolyesterfilmclippedatbothends.Onecompartment contains a dark gray resin; the other, a light gray catalyst. A cross section of the cartridge is shown in illustration B.
Afilmbarrierofheatsealedpolyesterfilmpreventsmigration between the resin and the catalyst to provide optimum shelf life. The excellent chemical resistanceofthefilmminimizesmigrationfromtheinside and the absorption of contaminants from the outside.
A. THE CARTRIDGE
heat seal
heat seal
dark gray
light gray
B. CROSS SECTION
The light-weight, dimensionally stable casing of filmisstrongenoughtowithstandroughhandling,but shreds quickly and thoroughly during the installation procedure.
FASLOC® is thixotropic and fast setting. This reduces viscosity during insertion of the bolt and permits relatively low installation force and torque. The results are fast installation, rapid achievement of full strength, and a minimum tendency for ungelled resin to drip from the holes during installation.
continued
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Section9-Page3May 2013
Gel
Tim
e (m
inut
es)
4
3
2
1
035 45 55 65 75 85 95
2 min.1 min.
1/2 min.QC, TR, B-Fast
FASLOC® Resin Cartridges continued
Performance Data1. Figure 1 represents the range of anchorage
strengths for estimating requirements.
2. Depending upon the compressive strength of the rock being considered, the diameter of the hole may affect the anchorage strength – the larger the diameter, the larger the contact area.
3.Pulltestunderfieldconditionsshouldbeusedto determine actual requirements.
4.Geltimesarefasterwhentemperaturesexceed55°F and slower when temperatures are below 55°F.
5. For RPM not shown in the Mix Table, determine minimum spin time based on 30 revolutions.
6. For 1-minute and lower gel times, the spin times indicated exceed the minimum 30 revolutions necessary for mixing. The additional spin times generates heat to achieve the stated gel times.
7. Mixing the resin and catalyst components in
a cartridge creates a strong three dimensional polymer matrix that is reinforced with limestone filters.Mostoftheanchoragestrengthisreached in 5 to 10 times the product gel time.
Fig. 2. Gel time
continued
6000
-800
0 P
SI -
Lim
esto
nes
1800
-220
0 PS
I - S
hale
s/Sa
ndst
ones
*
700-
800
PSI - M
udst
ones
/Silts
tone
s
1200
0-15
000
PS
I - G
rani
tes
*Sandstones willvary since they areoften intermixedwith shales.
Fig. 1. Resin anchorage related to compressive strength of rock
Gel time @ 55°F
Mix Table
Spin Times, Sec.
Product Type 50 RPM 300 RPM 600 RPM 800 RPM
B-Fast, TR N.R. 6-7 3-4 3
G-HV,QC N.R. 6-7 3-4 3
1/2 minute, QC1 12-15 6-8 3-5 3-4
1 minute 12-15 6-8 3-8 3-6
11/2 minutes 12-15 6-8 3-8 3-6
2 minutes 12-15 6-8 3-8 3-6
2-4 minutes 12-15 6-8 3-8 3-6
7 minutes 12-15 6-8 3-8 3-6 N.R. - Not recommended
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Section9-Page4 May 2013
General Installation Instructions•Theinstallationproceduresshouldbefollowed
carefully to ensure successful application of FASLOC® resin grouting.
•Variousfactorsaffectinstallation.Theseinstructions are general guidelines. Mine tests must be conducted with bolts to determine actual “mix” and “hold” times.
•Boltsshouldbeinstalledassoonaspossiblein newly-exposed roof. Roof that has shifted or sagged offers least chance for successful support.
•Donotuserupturedorbrokencartridges.
•RefertoM.S.D.sheetsandProductBulletinforadditional technical and safety data.
Safe Handling PrecautionsCaution: Do not open or puncture cartridge. Physical contact with liquid contained in cartridge may cause mild irritation. Safety glasses or eye shield should always be used when roof bolting isdone.Incaseofeyecontact,immediatelyflushwith plenty of water for at least 15 minutes. Call a physician.
Incaseofskincontact,flushskinwithwater.Prolonged contact with skin may cause mild irritation.Irritationshouldsubsidewhenmaterialisremoved.
For complete safety information, refer to the Material Safety Data Sheets. Copies will be furnished upon request.
Cartridgesarefilledwithinertfillers,water,polyester resin and activator (active ingredients includelowlevelsofstyreneandmodifiedbenzoylperoxide).FASLOC® cartridges are for industrial use only and are intended for use in conjunction with bolts. The relationship between hole dimensions, bolt size and the size and number of cartridges is critical to good performance. YourDSIrepresentativewillbegladtoassistindeterminingthepropercombinationsforspecificapplications.
FASLOC® Resin Cartridges continued
continued
2 Push the bolt into the hole to a point just below the roof line. Slow rotation of the bolt during insertion is optional.
1InsertnecessaryFASLOC® cartridges into the hole.
4aFullyGroutedBoltsPush the bolt upward with the maximum thrust available from the machine and hold untilFASLOC® hardens. Do not rotate after Step 3. Damage to partially gelled resin may result.
3 Rotate the bolt as indicated above.
4c Resin Point Anchor BoltsWhenFASLOC® is used to supplement mechanical shell anchors, spin-to-lock.
4b Tension Rebar & Combination BoltsHold the bolt until the resin has hardened. This period of strength development will vary depending on gel time, product temp. and mine conditions. When resin has hardened, rotate the bolt until the desired torque is developed.
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Section9-Page5May 2013
UsesFASLOC® has been a leading supplier of polyester resin cartridges to the mining industry for over 30 years.FASLOC® resin cartridges allow for quick and reproducible anchoring of many varieties of boltsandcables.Inmineroofsupport,FASLOC® systems reinforce strata, providing strength and rigidity in untensioned systems, and ensure a durableanchorageforFASLOC® resin grouted tensioned bolts. The reinforcement technique bondstheindividualstratifiedlayersofrockintoasingle,highstrengthbeam.FASLOC® resin cartridge can also be used in many other reinforcement, stabilization, and anchoring applications. The reliability of the anchorage system, plus ease of use and minimal resin setting times, will increase productivity and safety.
AdvantagesTheproprietaryFASLOC® package has a distinct advantage over other resin systems due to:
• Highcatalyst/resinratio• Uniforminstallationtime• Mixingefficiency
Cartridge DiametersNominal diameters for both imperial and metric are available. Diameters are as follows:
Cartridge LengthsCartridges are available in lengths from 12" to 60".
FASLOC® Resin Cartridges continued
Storage RecommendationsFormaximumshelflife,FASLOC® cartridges should be stored away from direct sunlight in a reasonably cool, well-ventilated, dry area. Storage life is up to 1 year, depending on ambient temperature conditions. Under adverse conditions shelf-life is reduced. To ensure proper storage, the product should not be subjected to temperatures in excess of 85°F for prolonged periods. Storage is recommended under cover, on original pallets withadequateventilation.Ifstoredintrailersinhotweather, door should be left ajar or a sun screen erected over the trailer. Conversely, while cold storage does not adversely affect the shelf-life of FASLOC®, it should be warmed to a range of 50°-60°F before using to assure gel times within the specifiedrange(seeFigure2).
ThetimerequiredforcasesofFASLOC® to warm or cool to ambient temperature is dependent on both the initial temperature and how the cases are stacked. Where the initial temperature is anywhere between 25° and 85°F, cases will come within 5° of ambient temperature in 48 hours when stacked in single columns with 4 sides of each case exposed to the air. Multiple columns should be separated by at least 2" to assist air circulation between columns.
Imperial Metric
0.9" 23mm
1" 25mm
11/8" 28mm
13/16" 30mm
11/4" 32mm
13/8" 35mm
19/16" 40mm
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Section9-Page6 May 2013
UsesCement cartridges were developed to anchor mine and tunnel rock bolts (rebar and THREADBAR®) and to anchor steel dowels in concrete.
Advantages•Convenienteasytohandlecartridgeform•Fastcuringcomparedtoordinary
cement grouts•Controlledsettingtimes•Noon-sitemixing,justimmerseinwater•Thixotropicandnon-shrink•Nospecialgroutpumpingequipmentrequired•Highstrength•Non-toxic,non-combustibleandchloridefree•Norotation
DescriptionThe system consists of an easy to handle cartridge containing a cementitious compound encased in a perforated package which, when immersed in water, will allow controlled wetting of contents, forming a thixotropic grout. The cartridge is then inserted into the hole and the deformed bolt or dowel is pushed in.
Instructions for Use1. Remove required number of cartridges from
package.2.Immersecartridgesinwateruntilthereareno
signs of air release (bubbling) from the cartridge. Do not leave for longer than 5 minutes in water.
3. The cement grout will begin to set in 20 minutes after initial water emersion; therefore the bolt must be installed within this time period. However, it is recommended that the wetted cartridges be used within 15 minutes to obtain optimum results.
4.Insertcartridgesintoacleanhole.Tampwithaloading stick.
5.Insertthebolt.Boltwillrupturethecartridgesallowingthegrouttofilltheannularspacebetween the bolt and the hole.
After 12 hours the grout will typically withstand the full yield point load of the deformed bolts or dowels.
Physical PropertiesCharacteristicsPackage type - Pellon (petroleum based fabric)Appearance(dry)-firm,dustyAppearance (wet) - rigid, easy to holdSoak time - 1.5 minutes maximum
Compressive strength2 hours: 1700 psi (12 MPa)4 hours: 2000 psi (14 MPa)24 hours: 3200 psi (21 MPa)3 days: 5500 psi (35 MPa)7 days: 6800 psi (43 MPa)
Anchorage Values (typical)4 hrs: 500 lbs/inch (90 kg/cm)8 hrs: 1800 lbs/inch (320 kg/cm)12 hrs: 2100 lbs/inch (375 kg/cm)24 hrs: 3000 lbs/inch (540 kg/cm)
Shelf Life12 months or more in a dry location
Packaging25 mm x 305 mm - 50/bag28mm x 305 mm - 50/bag32mm x 305mm - 50/bag38mm x 305 mm - 50/bag
Cement Cartridges
Non-shrink Cementitious Anchor Grout
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Section10-Page1May 2013
Mesh
Chainlink Mesh (Frost Fencing)•galvanizedtoASTMA392specifications•T=6(0.192"),9(0.144"),
11 (0.120") and 12 (0.106") gauge•W=4',5',6',7',8'and10'wide•L=rolls25',50'and100'long•S=2", 2½" and 3" opening size
Welded Wire Mesh•toASTMA185specifications•wiretoASTMA82specs(75,000psitensile)•minimumweldshearstrength(lbs) =35,000xwirecrosssectionalarea(in2)•endsflushcutforsaferhandling•availablegalvanized•T=4(0.232"),6(0.192"),8(0.160"),
9 (0.144") and 10 (.0128") gauge•W=48" to 96" wide•L=48" to 24' long sheet or to 100' long roll•S=4" x 4" spacing typical but variable (as shown)
Expanded Metal Mesh•carbonsteeltoASTMA1011specifications•upto4xstrongerthanweldedwiremeshatjoints•availablegalvanized•T=12gauge(0.106")•W=4',5'and6'•L=4'to10'•S=3"x6"openingsize
Gabion Mesh•toASTMA975specifications•galvanized•weight=0.365lbs/ft2
•T=11gauge(0.120")•W=2m(79")or3m(118")•L=30m(99')•S=3.25"x4.5"openingsize
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Section10-Page2 May 2013
Formed Mesh
Mesh RetainersFor construction of soil retaining walls•meshtoASTMA185specifications•wirestrandtoASTMA82specifications(75,000psitensileminimum)•minimumweldshearstrength(lbs)=35,000xwirecrosssectionalarea(in2)•endsflushcutforsaferhandling•availablegalvanized•supportstrutsholdmeshat80˚angle•T=meshandsupportstruts4gauge(0.225")•H/W=18"x18",18"x22",18"x24"and20"x22"•L=10'•S=4"x4"spacing
Mesh ChannelsFor construction of shotcrete barricades and �ll fences•meshtoASTMA185specifications•wirestrandtoASTMA82specifications(75,000psitensileminimum)•minimumweldshearstrength(lbs)=35,000xwirecrosssectionalarea(in2)•endsflushcutforsaferhandling•T=6gauge(0.192")•H/W=3"x3,6"x7.5",7.5"x9"•L=10'•S=4"x4"spacing
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Section10-Page3May 2013
Shotcrete Mesh Panels
Advantages•Fastandeasytoerect•Non-corrosiveifgalvanizedmeshisused.•Concussion-resistant
Shotcrete Mesh Panels are constructed with black or galvanized mesh and burlap cloth. Stiffeners are incorporated for three-dimensionable stability. The panels can be various sizes depending on application. They are lightweight and can be cut-to-shape with small bolt-cutters. When Shotcrete is applied to the panels, the result is a durable wall, which is resilient to close proximity blasting.
Uses•Constructionofwallsforlunchrooms•Utilityrooms•Buildingbulkheads•Protectivewallforshaftareas
Installation•Installgrouteddowelson2-4'centersaroundperimeterofproposedwall•Tie1/2"rebartothedowelsandformagridofapproximately2-3'squares•TietheShotecreteMeshPanelformstotherebargridusingtiewire.Theribstiffenerofthepanelis
then tied to the rebar. The panels must be butted together and wire tied about every foot. Panels can be easily trimmed to conform to tunnel of drift irregularities using ordinary bolt-cutters.
•ApplyShotcretethroughrebargrid.•Canalsobeattachedtoexistingbeamsonstructures.
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Section10-Page4 May 2013
‘Gun Quip’ Wall & Support System
•Shotcretepanel•ventilationwalls-temporaryorpermanent.•fireproofundergroundworkshopsandoffices.•providesrocksupportwithrockboltinstallation•protectivereinforcingaroundelevatorsandshafts.•extraprotectiononwallsandroofsnearexpensive
machinery or electrical substations.•comescompletewithbackingorplain•manufacturedunderASTMA02
Technical wire speci�cations•ASTM510wirecomposition•ASTMA82•wiresize14gauge(WO.5)•nominaldiameter-wirediameter 0.080" (2.032 mm). Specify wire diameter. 0.081" +.001" (2.0574 mm + .0254 mm)•Tensile maximum: 130,000 psi (896 MPa) minimum: 110,000 psi (758 MPa)
panel side view
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Section10-Page5May 2013
Polymesh
DYWIDAGPolymeshiscomprisedofhightenacityyarns, woven into a stable interlocking grid structure and then coated with PVC for protection during installation.
Polymesh is used for longwall recovery mats as well as rib and roof control. Longwall recovery mats are fabricated and assembled to mine-specifications.
•Lightweight-reducescostandhandlingtime.•Nosharpedges,reducinginjuryhazard
associated with chain link and welded wire.•Conformseasilytotherooforribsduetothemultifilamentyarndesign.
•Strongerthanotherpolymergrids:Sincethelongitudinal and transverse members are crossed and independent, there is less ripping out at the intersections than with other polymer grids.
•BothFRASandNon-FRASavailable (FRAS - Fire Resistant and Anti-Static))
Polymesh is available in rolls made to custom length. The typical roll lengths are 30 m, 50 m and 100 m.The width also can be customized to specificneedsbutcommonare1.25mand2.5mwith 5 m being the maximum width.
DSI Grades Tensile strength (ASTM-D4595) Minimum aperture size Weight (ASTM-D5261)
MD XMD MD XMD ultimate
at 2% strain1 ultimate
All Polyester lbs/ft kN/m elongation inch mm oz/yd2 g/m2
55/55 440 440 55 55 18×23% 1.30 33 12 375
55/55 440 440 55 55 18×23% 2.40 60 12 375
80/80 650 650 80 80 18×23% 1.25 31 15 500
80/80 650 650 80 80 18×23% 2.40 60 15 500
200/80 1,600 650 200 80 18×23% 1.25 31 23 780
200/200 1,600 1,600 200 200 18×23% 1.05 26 38 1288 MD = machine direction, XMD = Cross Machine Direction 12%strainisequivalentto10"convergencegiven10ftunsupportedspanduringshieldrecovery.
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Section10-Page6 May 2013
Polymer Mining Grid
DSIPolymerMiningGridisanalternativeto weld wire mesh products and can be used as a supplemental support structure between roof/rib bolts in any underground mining and or tunneling operation.
Itiscorrosionresistantandisespeciallyapplicable to any screening project when it will need to be "mined through" such as for pillar wrapping or for pilot tunnels. Itisalsoespeciallyusefulincorrosiveenvironments.
Notes:
a) 95%lowerconfidencelimitvalues,IS)2602
b) Typical values
c) Tests performed using extensometers
d) MD: machine direction (longitude to the roll)
TD: transversal direction (across roll width)
Dimensions
Technical Data
Physical PropertiesPhysical Characteristics Test Methods Data
Structure Bi-OrientedGeogrids
Mesh Type Rectangular Apertures
Standard Color White
Polymer Type Polypropylene
Carbon Black Content ASTM D4218 No
Flame Retardant ISO9705 Yes
Packaging ISO10320Rolls in Polyethylene bagswithI.D.labels.
Dimensional Characteristics Test Method Unit FR 270 Notes
Aperture MD mm 59.5 b,d
Aperture TD mm 56.5 b,d
Mass Per Unit Area ISO9864 g/m² 270 b
Roll Width m 4.0 b
Roll Length m 25.0 b
Roll Diameter m 0.3 b
Roll Volume m³ 0.4 b
Gross Roll Weight kg 61.0 b
Technical Characteristics
Test Method Unit FR 270 Notes
MD TD
Peak Tensile Strength ISO10319 kN/m 20.0 20.0 a,c,d
Yield Point Elongation ISO10319 % 13.0 10.0 b,c,d
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Section10-Page7May 2013
Straps (Mats)
Rock Bolt Strap•A36material(36,000psiyield)•T=12gaugeto¼"•W=4"to8"•L=48"to120"•C=hole/slotsize/spacingtospec
W-Strap (Mat)•T=12,14,16gauge•W=5"to13"•L=54"to240"•C=holesize/spacingtocustomerspecs
Expanded Metal Mesh Strap•1008material(30,000psiyield)•T=8gauge(0.164")•W=15"•L=88.5"•deburredforsaferhandling
Welded Wire Mesh Strap•toASTMA185specifications•T=0/0 gauge (0.306")•W=12"•L=84"and108"•S=4"x4"spacing
Custom sizes and/or galvanizing available on request
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Section10-Page8 May 2013
Roof Channel
Description•2materialgrades-A36and65000psiminimum
yield•Lengthandholespacing-tocustomerspecifications
•Width-nominal5-1/2inches•Thickness
T-2 - minimum 0.100 incT-3 - minimum 0.125 inchT-4 - minimum 0.145 inchT-5 - minimum 0.165 inch
Design Featuresa) holes punched on the sides for hanging
cables and ventilation materials
b) channel ends have the corners rounded - such reducing sharp corners and prevent cuts to the miners hands and backs in low coal
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Section10-Page9May 2013
Bearing Plates (washers)
Domed Plate - Use with Anchornuts, Cable Grips or Spherical Seat Washers•minimumA-36material(36,000psiyield)•A=5",6",8"and12"square(rect4"x6")•B=1/4" or 3/8" thick•C=holediameterasrequired
Flat Plate - for General Use•minimumA-36material(36,000psiyield)•A=4"to12"square•B=1/8" to 1½" thick•C=holediameterasrequired•bentcorner,groutslots&keyholesavailable
Friction Bolt Plate - for Use with Friction Stabilizers •minimumA-36material(36,000psiyield)•A=6"square•B=FB-33&FB-39:3/16" thick; FB-46: ¼" thick•C=FB-33:36mm(17/16") diameter FB-39: 41mm (1 5/8 ") diameter FB-46: 48mm (2") diameter
Embossed Plate (Donut plate)•minimumA-36material(36,000psiyield)•A=6"and8"square•C=13/16" to 11/8 "•availableinGr.2orGr.3rating
Push-on-Plate - for installing Screen/Mesh (Threaded Bolts and OMEGA-BOLT® Rockbolts)•heattreatedtoHRC45minimum•A=5"square•B=0.068"thick•C=5/8", ¾" and 7/8" available•magneticinstallationtoolavailable
T-Dome Plate - for use with T-Dome Rock Bolts•minimumA-36material(36,000psiyield)•A=4",5"&6"square•B=¼" thick•C=7/8" diameter
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Section10-Page10 May 2013
Conventional Header Plate•minimumA-36material(36,000psiyield)•A=6"•B=10" and 16"•C=grade2and3•D=holediameterasrequired
A
B
A
B
C
D
D
C
Low Pro�le Header Plate•minimumA-36material(36,000psiyield)•A=6"•B=16"•C=grade2and3•D=holediameterasrequired
Bearing Plates (washers) continued
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Section10-Page11May 2013
8 x 12 Header Plate•minimumA-36material(36,000psiyield)•A=8"•B=12"•C=grade2orgrade3•D=holediameterasrequired
A
B
A
B
D
C
C
DT-Channel Plate•minimumA-36material(36,000psiyield)•A=4"•B=9"•C=grade2and3•D=holediameterasrequired
Bearing Plates (washers) continued
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Section10-Page12 May 2013
Advantages•Fastandeasytouse.•Greatlyimproves“punching”shearof
shotcrete.•Providesenlargedbearingareaforhigherload
carrying capacity.
Where to UseAny areas where bolting precedes shotcreting, especially in poor rock conditions, where improved bearing capacity of the ground support is desirable.
Installation1.InstallDSIshotcreteplatesinthesamemanner
as conventional plates.2. Apply shotcrete to the rock surfaces and ensure
the plates and rebar wings are embedded at least 38 mm (1½").
MaterialsPlatematerialGradeA-36(36,000psi)meetsorexceeds ASTM F432 de�ection criteria. Rebar meetsASTMA-615andCSAG30.18Mspecs.
Shotcrete (Spider) Plate (Black & Galvanized)
DescriptionDSIshotcreteanchorplatesareconstructedspecificallyforusewithrockboltsandshotcrete.Reinforcing bar is custom bent and welded to conventional rock bolt anchor plates.
Plates are 5" x 5" x ¼", 6" x 6" x ¼" or 3/8". Hole size can be from 7/8" to 1½". Rise on spider can be made to any height required for depth of shotcrete.
Dimensions Center Hole Form Weight
5"× 5"× 1/4" 1.2" Flat 4.5 lbs
6"× 6"× 1/4" 1.2" Flat 6.4 lbs
5"× 5"× 3/8" 1.2" Flat 9.6 lbs Custom sizes available upon request
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Section10-Page13May 2013
Butter�y Plate
The butter�y plate is a light-weight plate with a largesurfacearea.Itisusedasanintermediateplate to increase the surface coverage of a bolt.
•DSIButterflyplatesfeaturebothlongitudinaland transverse V-shaped deformations for added strength and greater ability to conform to irregularities in the rock surface.
•Thedeformeddesignrendersagreaterstrength, placing the perimeter of the Butter�y Plate in tension.
•Userfriendlyroundedcorners.•Canbeusedwithbothflatanddomed
plates (up to 150mm, 6 in2)•Butterflyplatesarecanbeplaceddirectlytothe
rock surface or used with Welded Steel Mesh.•Butterflyplatesaresuppliedwithslots
for supporting of light service lines.•Corrosionprotectionmaybeprovidedbyhot-dipgalvanizingthefinishedplateor by using pre-galvanized material.
PackagingButter�y Plates are tied with wire clips and palletized.
Length x Width Thickness Hole Diameter Net weight black Net weight galv.
300 × 278 mm 12 × 11 inch
1.9mm 50mm=2inch 2.87 lbs 2.95 lbs
400 × 278 mm 15.75 × 11 inch
1.9mm 50mm=2inch 3.73 lbs 3.83 lbs
Product Code(s)
12 × 12" black BUTT300S USA
12 × 12" galv. BUTT300GSUSA
12 × 16" black BUTT400SWA
12 × 16" galv. BUTT400GS
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Section10-Page14 May 2013
Surface Control Plates
23" and 19"General Information•the23"diameteris"special"order•the19"diameterisstockproduction•allplateshavethe"rollededge"toprovideforsafehandling•largediameterplatesforsurfacecontrol•theseplatesaretobeusedinconjunctionwitharoofboltandroofplate
23" Description•23"diameterwitha13/8" center hole•availableinavarietyofmillthicknessesfrom0.022"to0.050"coldrolledorcoatedsteel
23"
19"
19" Description•19"diameterwitha1"centerhole•19"diameterwitha13/8" center hole•availableinavarietyofmillthicknessesfrom0.022"to0.050"coldrolledorcoatedsteel
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Section10-Page15May 2013
Star Plates
For general use (may require spherical seat washer)
•specialgradedeepdrawsteel•25 ton capacity •A=6" diameter •B=only3/16" thick •C=1½" diameter•weighsonly1.6lbs
(730 g)
Star Plate Speci�cationsThe most important features of any roof plate are stiffness, yield strength and area of contact with the rock, especially under high loads.
TodeterminetheseparameterstheDSIResearchand Development team have developed a testing method which very closely simulates underground coal mining conditions.
Figure 1 illustrates the performance of the new Star Plate (and compares it with other common roof plates) for conditions commonly encountered in Australian underground coal mines. The Star Plate yield load is close to the yield strength of the mostwidelyusedAXtypebolt.
Apart from the high strength of the Star Plate (despite its relatively thin plate thickness of 5mm) it has the additional advantage of providing a larger bearing area when heavily loaded as shown in Figure 2.
TheStarPlateisafurtherexampleofDSIResearch and Development Team’s world leading technology in Strata Reinforcement Products, that seeks safe, cost-effective solutions for the underground mining industry.
* 150X150X8mm Domed Plate Figure 2: Plates under heavy load.
Figure 1: Typical Load vs. Displacement characteristics of STAR PLATE used with wire mesh compared with two conventional domed plates tested on a �at surface of medium strength bed of 25-30Mpa compressive strength.
* 150X150X10mm Domed Plate * 150X5mm Star Plate
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Section11-Page1May 2013
Eyebolt
Welded Return Eyebolt•44Wmaterial(60,000psi)•E=Ø9/16" if 5/8"-11 UNC thread Ø11/16" if ¾"-10 UNC thread•L=18"and24"undereye•5/8" rated for 2,300 lbs•¾" rated for 3,600 lbs
Butt Welded Eyebolt•44Wmaterial(60,000psi)•E=Ø9/16" if 5/8"-11 UNC thread Ø11/16" if ¾"-10 UNC thread•L=18"and24"undereye•5/8" rated for 2,300 lbs•¾" rated for 3,600 lbs
Forged Slusher Eyebolt•5140Alloy(120,000psi)•E=Ø11/8"•L=18"and24"undereye•¾"-10 UNC thread•ratedfor9,000lbs
Forged Oval Eyebolt•5140Alloy(120,000psi)•E=Ø5/8"andؾ"•L=12"and18"undereye•5/8"-11 and ¾"-10 UNC thread•5/8" rated for 4,000 lbs•¾" rated for 6,000 lbs
Cable Eyebolt•E=0.6"cablediameter•F=Ø11/8"fittings,1045steel(80,000psi)•L=approx.28"overall•5/8"-11 and ¾"-10 UNC thread•5/8" rated for 2,100 lbs•¾" rated for 2,800 lbs
continued
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Section11-Page2 May 2013
Open Eyebolt & “L” Bolt•DSIsupplieswelded,bent,open,and“L”bolts
as well as custom manufacturing them to your length and threading requirements. These bolts are generally used for hanging piping, cable, and equipment.
•Highstrengthsteel.Grade100K.•Bardiameteres:5/8", ¾", 7/8"•Expansionshells:Included.
Eyebolt continued
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Section11-Page3May 2013
Scaling Bars
Hexagonal Solid Aluminum•6061-T6hexagonalaluminum•T=1"hex•weight=1.1lbs/ft•tipsAISI1080orequivalent•anglechiselononeend•straightchiselonotherend•optionalrubberhandgrip•L=4',6',8',10'and12'
Hexagonal Solid Steel•AISI1080orequivalentsteel•T=7/8" hex (¾" special order)•weight=2.3lbs/ft•anglechiselononeend•moilpoint(shown)orstraight
chisel on other end•optionalrubberhandgrip•L=4',6'and8'
Square Steel Tube (Swaged)•HSStubingASTMA500C•T=1"x1"x0.100"wall•weight=1.2lbs/ft•tips¾" octagon AISI1080orequivalent
•anglechiselononeend•moilpointonotherend•optionalrubberhandgrip•L=anylengthto20'
Square Aluminum Tube (Swaged)•6063-T5aluminumtubing•T=1"x1"x0.095"wall•weight=0.4lbs/ft•tips¾" octagon
C1080 or equivalent•anglechiselononeend•moilpointonotherend•optionalrubberhandgrip•L=anylengthto20'
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Section11-Page4 May 2013
Utility Hangers
Bullhorn - Square Timber Support•44Wmaterial(60,000psi)•E=Ø1",Ø11/8"andØ1¼"•L=18",24",30"and36"•S=8"x8",10"x10"and12"x12"
Pipehanger (J-Bolt) (J-Hook) - for 3/16" Chain or 1/4" Chain•1060material(100,000psi)•E=Ø9/16"•L=18"and24"overall•ratedfor2,000lbs
S-Hook Hanger•44Wmaterial(60,000psi)•E=Ø5/16"•L=8½" overall•alsoavailableplasticcoated(forelectricaluse)
Sill Nut (Eye Nut)•availablein:ductileiron-2000lbrating
5140 alloy - 4000 lb rating•L=4½" overall•5/8" - 11, ¾" - 10, 7/8" - 9, and
1" - 8 UNC thread
J-Nut•availablein:ductileiron-500lbrating•L=4½" overall•5/8" - 11, ¾" - 10 and 7/8" - 9 UNC thread
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Section11-Page5May 2013
Keyhole and Hanging Brackets
Service Line Keyhole Brackets are used in conjunction with service line slots pre-punched in W-Strap vee’s.
The Keyhole Brackets are used for suspension of light mine services using chain.
A safety factor of 6:1 has been applied to the failure load on the design.
Loads are valid for static loads only with no allowance being made for shock load or vibration.
Corrosion protection may be provided by hot dip galvanizing.
NotesFor details of Keyhole Brackets, load limitations andotherfactorspleasecontactDSIMiningProducts.
Plastic BlastingWire Hangers
Hook TypePipe Hangers
Screen Hangers•Saveon
unnecessary additional bolting just to hang screen.
•Quick,easyscreenpositioning.
•Squeezethemshut.RailboltC-1060 SteelPipe: ¾" SCH: 40
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Section12-Page1May 2013
Miners Wrench Holder•mildsteelconstruction•fitsontostandardsafetybelts•holdshammerheadandregularwrenchmodels
Muck Scoop (Pelican Pick)•withwoodenhandle•replacementhandlesavailable•L=32"
Raise Rascals (Folding Degree Rules)•madefromheavydutyplastic•bothmetricandimperialmeasurements•degreesononeside,0/0 grade on other•comeswithlevelbubble•6-12"longwhenfolded,24"(60cm)unfolded•alsoavailableinaluminum(metriconly)
Raise Ladders•with3"standofflegs•T=1"sched40pipe•W=12"•L=8'and10'•customsizesavailable
Tools & Hardware, Drilling Consumables
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Section12-Page2 May 2013
Drill Bits•spadeandwingbits•forwetanddrydrilling•diameter26to30mmtypical•threadshanksM16or½"whitworth•orspigotshanksinsmallfigure8,3/8"squareor½"x3/8"
Drill RodsFor dry drilling – fabricated scroll or twisted scalloped type•pinnedorthreadedjointsavailable•differentdriveendstosuitbolter(7/8" hex, square drive, etc)
Tools & Hardware, Drilling Consumables continued
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Section13-Page1May 2013
Lattice Girders and Steel Arches
3 bar type
DimensionsO.P.
Type
Bar Size
Weight
[lbs/ft]
H
[in]
B
[in]
e
[in]
H1
[in]
Ix
[in2]
Sx
[in2]
ly
[in2]
By
[in2]
Joint Plate Foot Plate
Size
[in]
Length
[in]
Unit
Wt[lbs]
Size
[in]
Unit Wt
[lbs]S3 S2 S1
506 8
0.39°6.72 3.70 3.94 2.01 3.441 1.716 2.324 1.180
L4 × 3 × 3/8 ×
4 9/16 3.2 3/8 × 5 × 5 2.7
6 10 8.26 3.94 1.88 4.676 2.226 2.395 1.216 4 9/16 3.2
70 6 8 0.39°
6.95 4.50 5.60 2.42 2.75 5.544 2.295 5.064 1.846 5 5/16 3.5 3/8 × 6 × 6 3.8
6 10 8.59 4.77 2.20 7.376 2.886 5.135 1.867 5 1/2 3.7
8 11 11.83 5.16 2.69 12.108 4.465 8.226 2.991 5 3/4 3.9
95 6 8 0.39°
7.07 5.50 7.09 2.94 3.76 8.937 3.036 8.950 2.526 5 9/16 4.4 3/8 × 7 × 8 6.0
6 10 8.70 5.77 2.59 11.741 3.751 9.028 2.548 6 3/4 4.6
8 11 12.05 6.16 3.18 18.883 5.854 14.840 4.188 7 1/16 4.8
115 6 8 0.47°
7.94 6.25 8.66 3.37 4.50 12.182 3.636 13.906 3.21
L5 × 3 × 1/2 ×
7 11/16 8.0 3/8 × 8 × 91/2 8.1
6 10 9.58 6.52 2.91 15.849 4.416 13.985 3.229 7 13/16 8.1
8 11 12.92 6.91 3.69 25.208 6.953 23.342 5.390 8 1/8 8.4
130 6 8 0.47°
7.76 6.87 8.66 3.69 5.12 15.015 4.068 13.906 3.211 8 1/8 8.4 3/8 × 8 × 91/2 8.1
6 10 9.39 7.14 3.15 19.379 4.929 13.977 3.229 8 5/16 8.6
8 11 12.73 7.53 3.93 30.623 7.794 23.342 5.390 8 3/4 9.3
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Section13-Page2 May 2013
4 bar type
Dimensions
Lattice Girders and Steel Arches continued
O.P.
Type
0[mm] S Bar Size
Weight [lbs/ft]
H [in]
B [in]
A Bars [in2]
Ix [in2]
Sx [in2]
ly [in2]
Sy [in2]
Joint Plate Foot Plate
Size [in]
Length [in]
Unit W [lbs]
Size [in]
Unit Wt [lbs]
100 10 5 7.61 5.19 3.94 1.2 6.42 2.47 3.40 1.72
L5 × 3 1/2 ×
1/2 × 5 × 7 5.0
6 8.88 5.44 1.8 9.77 3.59 4.56 2.31 51/4 5.6
7 10.23 5.69 2.4 10.04 4.94 5.75 2.92 51/2 5.9
8 13.43 5.94 3.1 19.34 6.52 6.97 3.54 53/4 6.1
10 17.16 6.44 4.9 33.50 10.41 9.34 4.75 6 6.4
61/2 6.9
140 10 5 7.88 6.76 5.51 1.2 11.54 3.42 7.32 2.66 63/4 7.2
1/2 × 7 × 9 8.3
6 9.14 7.01 1.8 17.32 4.95 10.03 3.65 7 7.5
7 10.51 7.26 2.4 24.55 6.77 12.98 4.72 71/4 7.7
8 13.71 7.51 3.1 33.38 8.90 16.10 5.66 71/2 8
10 17.42 8.01 4.9 56.39 14.10 22.65 8.24 8 8.5
180 10 5 8.51 8.34
7.09
1.2 20.28 4.64 12.85 3.63 83/8 8.9
1/2 × 8 × 101/2 11.9
6 9.78 8.59 1.8 30.13 6.70 17.82 5.03 85/8 9.2
7 11.51 8.84 2.4 42.29 9.14 23.34 6.58 87/8 9.6
8 14.35 9.09 3.1 56.94 11.99 29.32 8.27 81/8 9.7
10 18.06 9.59 4.9 94.44 18.89 42.33 11.94 85/8 10.3
220 12 5 9.80 9.91
6.66
1.2 28.45 5.55 19.84 4.58 915/16 10.6
5/8 × 10 × 12 21.2
6 11.06 10.16 1.8 42.06 8.01 27.71 6.40 103/16 10.9
7 12.43 10.41 2.4 58.75 10.93 36.57 8.44 107/8 11.1
8 15.63 10.66 3.1 78.74 14.32 46.29 10.65 1011/16 11.8
10 19.34 11.16 4.9 129.41 22.51 67.88 15.68 118/16 11.9
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Section13-Page3May 2013
Steel Rib Supports
*Other variations available on request.
DSIUndergroundSystemsInc.canbendI, WF,H sections ranging from 4" to 27" in depth (DSI Underground SystemsInc.hasformedW14x287 lb ft with 2" flanges).
Curvatures range from a minimum radius of 10 times the beam depth for 4" and 6" sections to 14 times the depth of section for larger beams. WhileDSI UndergroundSystemsInc.hasworked
with 30' sections, it is recommended the sections notexceed22'.DSIUndergroundSystemsInc.also recommends against the use of lighter-weight sections when the radius of curvature is less than 25 times the depth of section.
DSIUndergroundSystemsInc.alsofabricatesstraight beams, forepoling sheets, steel lagging, tie rods, foot plates and pipe spacers.
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Section13-Page4 May 2013
Accessories Used with Ribs
Butt Joint•Butt plate height: Rib Depth plus 1"•Width:Flangewidthplus1"•Thickness: 4"and5" sections – 3/8"
6"sections–½" 8" sections – 5/8" 10"sections–¾" 12" sections – 1"
•Boltsize(A325)andquantity: 4"sections:(2)¾"dia 5" and 6" sections: (2) 1" dia 8" and 10" sections: (4) 1" dia 12" sections: (6) 1" dia
The above are for normal loading conditions. For extreme conditions, a full-moment strength joint may be required.
Foot Plate•4"sections:½" x 7" x 7"•5" sections: 5/8" x 9" x 9"•6" sections: 5/8" x 9" x 9"•8" sections: ¾" x 12" x 12"•10" sections: 1" x 14" x 14"•12" sections: 1¼" x 16" x 16"
Tie Rods•A529rodstockwith4" N.C. thread each end•Length=ribspacing+6"•With4" and 6" sections: ¾" dia.•With8" and 10" sections: ¾" dia.•With12"andabove:structuralspreadersarerecommended
Pipe Spacers•Schedule40pipestock•Length=ribspacing–webthickness•With¾" dia. Tie rods: 2" dia.•With¾" dia. Tie rods: 2" dia.
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Section13-Page5May 2013
FastJax•12"AdjustableTops•100TonYieldStrength•Availablein6"incrementsfrom4'to9'high•Canbefittedwithyieldabledish,yolktosuitbox
beam or flat plate top•Noloosepiecesorgroutbags
RBS Posts•6"or9"AdjustableTops•90TonYieldElement•10TonSettingLoad•Diametersavailablefrom6"to10"•PinePosts•Noloosepiecesorgroutbags
Adjustable Support Jacks
0 1 2 3 4 5 6 7 8
DISPLACEMENT, inches
SU
PP
OR
T L
OA
D, k
lps
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Section13-Page6 May 2013
Mastercast and Traditional Overcasts
Mastercast•RapidAssemblyasfewassixmajorpieces•Allsizesavailablein12"increments•Reusableandgalvanizedpanels•Chanelendsforwingwalls•LightandHeavyDutyversions•Shipscompletewithalltools
Traditional Overcasts•Strong-MadewithWideFlangeBeam•AllSteel-NoAluminum•QuickErection-2-4Hours•MostSizes•Reuseable
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Section13-Page7May 2013
VTS Props
The Salzgitter Hydraulic Props, now produced byVTSandmarketedinNorthAmericabyDSIUndergroundSystemsInc.,offersafetyontheface. They can be easily maintained and operated, and, according to the requirements and depending on the prop type, readily extended with slip-on extension pieces.
The VTS Props are set by hydraulic pressure pump and fed into the setting gun via a setting line installed in the face. The setting gun will be put on thefillingvalveoftheprop,mechanicallysecuredwith a one-hand locking mechanism, and operated by one hand.
The pressure �ows through the setting gun and fillingvalveintotheinteriorofthepropandcausesthe internal prop and the piston to telescope. After having been set against the support (articulated bar) the prop is braced with the setting force existing in the setting line, thus immediately supporting the roof.
Due to the rock pressure the prop can now be loaded till the set pressure on the operating valve willhavebeenreached.Ifthenominalpressureisreached, the operating valve will open and some hydraulic �uid will be sprayed off till a pressure spring will close the operating valve again. This process repeats itself every time the nominal pressure is reached. Thus, the prop remains always protected from overload by the rock pressure.
Large lifting heights permit a large range of convergences.
Due to the possible extensions according to the prop types, the prop length can be readily adapted underground to the changes of the face heights.
The prop can be withdrawn with a releasing key that — extended by means of a rope or a chain — actuates the releasing valve from a safe place of the miner and lets the hydraulic �uid escape from the cylinder. An installed return spring rapidly retracts the internal prop. Herewith, the prop is ready for use again for a new setting operation.
continued
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Section13-Page8 May 2013
VTS Props continued
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Section13-Page9May 2013
VTS Props continued
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Section13-Page10 May 2013
Crib Systems
Tri-Log™ Wood CribIntroducingtheTri-Log™System,thenewcribbingmethodfromDSIUndergroundSystemsInc.thatsavesyoutimeandmoney.Itisdesignedto replace four and nine point cribs as well as other four-sided structural wood systems. This system uses only three pieces to build each course compared to four or more pieces for the competitive systems. That’s 25% fewer pieces, so you’llbenefitfromsignificantreductionsinlabor,handling and transportation costs.
The unique interlocking design delivers 100% contact between the nested timber layers. This efficiencymeansTri-Log™cribsgiveupto50%more support than the average four point crib. Thetripodconfigurationandinterlockingdesignprovide superior stability, allowing higher aspect ratios than conventional cribbing.
The angle-cuts of the notches reduces stress at the overlap and maximizes carrying capacity throughout the load cycle.
Tri-Log™ cribs are slid into place tight to the roof rather than having to be lifted over the previous courseandcanalsobeusedwithACIprestressinggrout bags or headers.
Thefinishedwedge-shapedcribspromotemoreefficientventilationandairflowthansolidsquareor rectangular cribs.
Tri-Logs™ are available in standard lengths up to 60” in either 4" or 6" sizes to handle capacities in excess of 800 tons. Custom designs for virtually any capacity can be produced.
Tri-Log™ Crib System•Lowestcostsystem•Capacitiesupto1,000tons•100%contactarea•Stabletrianglebase•Singlespeciehardwood•Pieceslocktogether•Lesspiecestohaul•LesspiecestoerectPatent No. 6,079,910
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Section13-Page11May 2013
Steel 4-Flange Liner Plates
DSIUndergroundSystemsInc.selectionofunder-ground supports, the widest in the world, affords the contractor, the designer, and the owner a matchless combination of high performance and tunneling at low cost.
Oneoftheseproductsalone-linerplates-offersthese outstanding advantages:•Economyofconstructionintime,excavation,
material, manpower.•Maximumsupportpergivenlengthwith
minimum weight of steel.•Standardvariationofplatedesignforallshapes
of tunnels in dry or wet ground.•Predictablestrength,fireresistant.•Continuoussupportduringthecriticalmining
phase in soft ground tunneling.•Easytostore,handleanderect,whetherthe
tunnel is straight, curved, circular, elliptical or horseshoe in shape.
•Gasketplatesthatsealjoints,stopwaterleakage and reduce air loss when water is a problem.
Steel liner plates provide a relatively light-weight, easy-to-handle, safe support for soft ground tunneling because the ground that supplies the loading also supplies the resistance to the load. The liner plate assembly simply distributes and transmits the load to the surrounding earth. As a steel liner plate ring takes load vertically, it tends to de�ect inward at the top and outward at the sides. The ground resists de�ection of the lining by developing a passive force equal in magnitude and opposite in direction to the force exerted by that of the lining. The diagram on the left illustrates this principle.
The ability of the surrounding ground to resist the outward bulge of the liner plate ring is the key toverticalloadsupport.Withtheringconfinedto a small amount of de�ection, the thrust line induced by the load is forced to follow the ring of liner plates. Thus, the ability of the assembly to withstand the applied load depends upon its ability to transmit ring thrust from plate to plate aroundthering.Obviously,thisabilityisenhancedbythefour-flangedesignofDSIUndergroundSystemsInc.plates.
There are various methods for determining the required strength of tunnel linings. Nevertheles, the type of ground, the location and depth of cover, the size and length of the tunnel, level of ground water, superimposed loading, and history always guide these calculations.
DSIUndergroundSystemsInc.linerplatescanbepurchased in 16" and 24" widths as corrugated or smooth plates. Liner plates are formed from one piece of metal to provide longitudinal and circumferential �anges. The plates can be galvanized and/or bituminously coated and grout holes with plugs can be included. For special conditions gasketed liner plates and tapered liner plates can also be manufactured. Liner plates can be installed alone or in conjunction with steel ribs if additional support is required.
continued
Corrugated and Smooth Liner Plates
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Section13-Page12 May 2013
General Speci�cationsThe following paragraphs are offered as a guide forthosewhowriteandissuespecificationsforsteel liner plates as underground supports.
ScopeThesespecificationsareintendedtocoverthefabrication and installation of liner plates in tunnels constructed by conventional methods. Tunnels excavated by full face, heading and bench, or multiple drift procedures are considered conventional methods. Liner plates used with any construction method utilizing a full or partial shield, a tunneling machine, or other equipment which will exert a force upon the liner plates to propel, steer, or stabilize the equipment are considered special casesandarenotcoveredbythesespecifications.
DescriptionCold-formed steel liner plates conforming to the specificationsbelowshallbefurnishedtothesizesand dimensions required on the plans. Such plates shall be installed at the locations designated on the plans or as designed by the engineer or the responsible authority.
Design and shape of the liner plates shall be such that erection and assembly of the liner plate structure can be completely and readily erected from inside the tunnel.
Plates shall be accurately curved to suit the tunnel cross section, and all dimensions are of such size and accuracy that plates of similar curvature will be interchangeable.
Bolts on both the longitudinal and circumferential joints shall connect all plates.
Groutholes2"indiametershallbeprovided,asshown on the plans, to permit grouting as the erection of tunnel liner plates proceeds.
Material Speci�cationsThicknesstolerancesshallconformtoAASHTOspecificationforHighwayBridges,Section16,or comparable AREMA Manual for Railway Engineering, Chapter 1, Section 4~15.
The Tunnel Liner Plates shall be fabricated from structural quality, hot rolled, carbon steel sheets orplatesconformingtothespecificationofASTMdesignation A1011.
The mechanical properties of the �at plate and sheets before cold forming shall be:
Tensile Strength psi 42,000 Min.Yield Strength psi 28,000 Min.Elongation in 2", % 30 Min.
Forming and Punching of Liner PlatesAll plates shall be formed from one piece of metal to provide longitudinal and circumferential �anges. They shall be punched for bolting on both longitudinal and circumferential �anges in accordance with the manufacturer's standard spacing, and shall be a multiple of the plate length so that plates having the same curvature shall be interchangeable and will permit staggering of the joints.
Groutholeswithplugsshallbeprovidedatspacingsufficienttoallowfillingofallvoidswithgrouting material.
continued
Steel 4-Flange Liner Plates continued
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Section13-Page13May 2013
Steel 4-Flange Liner Plates continued
Galvanizing and CoatingWhere liner plates are used as temporary supports, and the permanent support is monolithic concrete or reinforced concrete pipe, and the opening between the back of the pipe and the insideofthelinerplateisfilledwithgroutorsand,liner plates are furnished black, not coated.
Whensospecified,thelinerplateswillbegalvanizedtomeetthecurrentASTMSpecificationA123.Inaddition,thelinerplateswhensospecified,shallbebituminouscoatedtomeetthecurrentAASHTOSpecificationM190.
Bolts and NutsBolts and nuts used with four-�ange liner plates shallbenotlessthan½"diameterfor7gageplates and lighter, and not less than 5/8" diameter for liner plates heavier than 7 gage. They shall be quickacting coarse thread with material conformingtoASTMSpecificationA307.
When required, the bolts and nuts shall be hot dipgalvanizedtoconformtoASTMSpecificationA 153.
Installation Liner plates shall be assembled in accordance with the manufacturer's instructions.
Voids occurring between the liner plates and the surrounding ground shall be pressure grouted as directed by the engineer in charge to completely fillallvoids.Thegroutshallbeforcedthroughthegrouting holes provided in the liner plates.
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Section13-Page14 May 2013
Typical Liner Plate Installations
Liner Plates OnlyThe most obvious advantages of this structure are that maximum support per foot of tunnel is obtained with minimum weight of steel. Liner plates, properly groutedorbackfilledastunnelingprogresses, form a dependable structure in either cohesive or non-cohesive ground. Liner plate structures generally require no additional support in tunnels up to 14' in diameter.
Ribs Inside Liner PlatesTo give extra support to a liner plate structure in large diameter or heavy load conditions, ribs can be added inside the ring. Liner plates then act as lagging and are normally lighter in gage.
This additional support usually requires an increase in the diameter of the driven bore to maintain the dimensions of the finishedinsidediameter.Thismethod is often used in shaft construction.
Liner Plates Between RibsThis type of structure is less common than ribs inside liner plates because it is harder to erect. Itdoesofferapracticaltrade-offunder certain tunneling conditions.
Three basic ways sof installing plates in tunnels or shafts are illustrated here; each has its advantage in a particular application or ground condition.
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Section14-Page1May 2013
Grouting Pump Systems
ICTUS
PumpModelICT060GRatio : 8,1 InletPressure:4barOutputPressure:28barDeliveryJMin.Grout:30litres’min.Delivery JMin. Water : 37 litres’ min
MixerModelICT5001mixerCapacity : 3 HP Bucket Capacity : 85 litre
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Section14-Page2 May 2013
VK Grout Plugs
VK Grout Plugs – Type “A”Product No. Hole Diameter Pipe Size 13" 17" 21" 24" 30" 36" 48" 60" 72" 84" 96"
A125L-A125R 11/4" 1/2" x - - x - x x x x x x
A138L-A138R 13/8" 1/2" x - - x - x x x x x x
A150L-A150R 11/2"EX 1/2" x - - x - x x x x x x
A175L-A175R 13/4" 1/2" x - - x - x x x x x x
A187L-A187R 157/64"AQ 1/2" x - - x - x x x x x x
A200L-A200R 2" 1/2" x - - x - x x x x x x
A212L-A212R 21/8" 1/2" - x - x - x x x x x x
A225L-A225R 21/4" 1" - x - - - x x x x x x
A238L-A238R 223/64"BQ 1" - x - - - x x x x x x
A250L-A250R 21/2" 1" - - - - - x x x x x x
A275L-A275R 23/4" 11/4" - - x - - x x x x x x
A300L-A300R 263/64"NQ 11/4" - - x - - x x x x x x
A350L-A350R 31/2" NC 11/4" - - x - - x x x x x x
A375L-A375R 325/32"HQ 11/4" - - x - - x x x x x x
A387L-A387R 329/32" HW 11/4" - - x - - x x x x x x
A483L-A483R 353/64"PQ 2" - - x - - x x x x x x ProductNumbersshownaboveareforstandardpluglengths-13"forEXandAQ;17"forBQ;21"forNQ,NC,HQ,HW
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Section14-Page3May 2013
Margo Type Plugs
Margo Plugs - to Seal Drill Holes
•tighteningthenutexpandstherubbersleeves•plugishollowfordrainage•ballvalve(soldseparately)maybethreadedontoend
Product No. Hole Diameter Pipe Size 18" 24" 36" 48" 60" 72" 84" 96" 108" 120"
M-112 11/4" 1/2" x x x x x x x x x x
M-125 13/8" 1/2" x x x x x x x x x x
M-137 11/2"EX 1/2" x x x x x x x x x x
M-162 13/4" 1/2" x x x x x x x x x x
M-175 17/8"AQ 1/2" x x x x x x x x x x
M-187 2" 1/2" x x x x x x x x x x
M-200 21/8" 1/2" x x x x x x x x x x
M-212 21/4" 1" x x x x x x x x x x
M-225 23/8"BQ 1" x x x x x x x x x x
M-237 21/2" 1" x x x x x x x x x x
M-262 23/4" 1" - x x x x x x x x x
M-287 3"NQ 1" - x x x x x x x x x
M-337 31/2" NC 2" - x x x x x x x x x
M-350 33/4"HQ 2" - x x x x x x x x x
M-387 4" 2" - x x x x x x x x x
M-437 41/2" 2" - x x x x x x x x x
M-450 43/4" 2" - x x x x x x x x x
M-462 47/8" 2" - x x x x x x x x x
M-487 5" 2" - x x x x x x x x x
To order, add the overall length to the product no.: e.g.: an AQ plug 36" long is Product No. M-175-36
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Section14-Page4 May 2013
Drill Hole Safety Plug
Product Number Drill Hole Size Item
P-125 XRP Safety Plug
P-138 13/8" Safety Plug
P-150 EX Safety Plug
P-175 13/4" Safety Plug
P-187 AQ Safety Plug
P-200 2" Safety Plug
P-212 21/8" Safety Plug
P-238 BQ Safety Plug
P-300 NQ Safety Plug
P-387 HQ Safety Plug Wrenchesareavailableforaboveplugs.
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Section15-Page1May 2013
DIAMOND SEAL®
Absorbent Polymer for Lost Circulation
DescriptionDIAMONDSEALisawater-swellablebutnotwater-soluble,100%crystallinesyntheticpolymer.DIAMONDSEALabsorbshundredsoftimesitsownweightinwater.Itisintendedforuseprimarilyasalostcirculationmaterial for horizontal directional drilling.
Applications/Functions•Lostcirculationmaterialforhorizontaldirectionaldrilling•Preventinadvertentreturnsinrivercrossingapplications•Stabilizeboreholeincobbleandgravel•Stabilizeunconsolidatedformations
Advantages•Rapidwaterabsorption•Effectiveinmitigatinglostcirculation•Economical-smallquantityyieldslargevolume•Easytouse•Non-fermenting
Recommended TreatmentFor slug treatment•Add½to1pound(0.25-.5kg)DIAMONDSEALperjoint
As a pill:•AddDIAMONDSEALat10–20lb/100gallonsofdrillingfluid•AddDIAMONDSEALat12–24kg/m3 of drilling �uid
Treatment for Loss of Circulation or Inadvertent Returns in HDD Operations:(Prior to pumping, remove all in-line screens in circulating system)Add the following to existing drilling �uid and displace:BAROLIFT® - 0.25 – 0.5 lb/100 gallons (0.3 – 0.6 kg/m3)N-SEALTM - 3 – 5 lb/100 gallons (3.6 – 6.0 kg/m3)DIAMONDSEAL -10–20lb/100gallons(12–24kg/m3)
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Section15-Page2 May 2013
EZ-MUD® DP
Borehole Stabilizing Dry Polymer
DescriptionEZ-MUD DP is a free-�owing, dry granular synthetic polymer containing partially hydrolyzed polyacrylamide/ polyacrylate (PHPA) copolymer. EZ-MUD DP, a water-soluble polymer, disperses and dissolves in fresh water rapidly. When mixed with fresh water, EZ-MUD DP hydrates quickly and forms a clear, viscous �uid. With its high molecular weight and optimum charge density, EZ-MUD DP provides excellent borehole stability through a coating mechanism (encapsulation).
Applications/Functions•Stabilizereactiveclayandshaleformations•Keeptrenchexcavationopenduringtheconstruction•Producehighviscositysolids-freeslurry•Enhancesrheologicalpropertiesofalow-solidsdrillingmud•Enhancecorerecoveryincontinuouswirelinecoringoperations•Flocculatenon-reactivesolidsinreservepitatlowconcentrations•Reducestorqueanddrag
Advantages•Disperseseasilywithminimalshear•Efficientshale/claystabilizerandviscosifier•Impartshighdegreeoflubricity•Compatiblewithotherdrillingfluidadditiveswhenaddedinpropersequence•Non-fermenting•Nopetroleumdistillatesinvolved•Breaksdownchemicallywithbleach(sodiumhypochlorite)•NSF/ANSIStandard60Certified
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Section15-Page3May 2013
EZ-MUD® PLUS
Polymer Emulsion
DescriptionEZ-MUD PLUS is a high molecular weight version of EZ-MUD with improved properties. EZ-MUD PLUS, a liquid polymer emulsion containing partially hydrolyzed polyacrylamide/polyacrylate (PHPA) copolymer, is usedprimarilyasaviscosifierandboreholestabilizertopreventreactiveshalesandclaysfromswellingandsloughing. The liquid form makes mixing easy. EZ-MUD PLUS is also added to low-solids drilling �uids to increase lubricity and to improve the carrying capacity of air/foam injection �uids.
Applications/Functions•Stabilizereactiveshaleandclayformations•Improveboreholeandexcavationstability•Enhanceslurryrheologicalproperties•Alleviatemudrings,bitballingandbooting-offinclayformations•Reducedrillpipetorqueandpumpingpressure•Minimizerodchatterindiamondcoredrilling•Create“stiff-foam”andmaintainfoamintegrity•Flocculatenon-reactivesolidsinreversepitatlowconcentrations
Advantages•Mixeseasilywithminimumshearinfreshwater•Efficientshale/claystabilizerandviscosifier•Non-fermenting•Costeffective-smallamountsproducedesiredresults•Breaksdownchemicallywithbleach(sodiumhypochlorite)•NSF/ANSIStandard60Certified
Notes•Make-upwaterusedtomixEZ-MUDPLUSshouldmeetthefollowingquality: Water pH between 8.5 - 9.5•Reducetotalhardnessofmake-upwaterbyaddingsodaash(sodiumcarbonate)
at 0.5 to 1 pound per 100 gallons (0.6 – 1.2 kg/m3) of make-up water.•EZ-MUDPLUScanbechemicallybrokendownwithliquidbleachinregularhouseholdconcentration
(5% sodium hypochlorite). Use one gallon of liquid bleach per 100 gallons (10 liters/m3) of �uid formulated with EZ-MUD PLUS. Do not use perfumed liquid bleach or solid calcium hypochlorite.
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Section15-Page4 May 2013
HOLEPLUG®
Graded Sodium Bentonite
DescriptionHOLEPLUGisanaturallyoccurringWyomingsodiumbentoniteclaythatisasizedandgradedchipmaterial used to seal and plug earthen boreholes.
HOLEPLUG is available in two particle size grades:•HOLEPLUG¾"(100%ofparticlespassthrough¾"screen;allparticlesretainedon3/8" screen)•HOLEPLUG3/8" (100% of particles pass through 3/8" screen; all particles retained on a ¼" screen)
Applications/Functions•Highlyrecommendedforuseingroutingannulusinalltypesofwells,particularlyenvironmental
monitoring well applications•Sealabovegravelpacks•Plugdecommissionedboreholes•Stemmingshotholes•Sealaroundconductorpipe•Seallostcirculationzones•Shutoffartesianflow
Advantages•Preventsentryofsurfacewaterintoboreholes•Highswellingpotential•Insituswellingtoprovideasuperiorsealwithexcellentcasingstabilization•Easiertoapplythanpellets•Costeffective•Simpletoapply,mixingnotrequired•Preventsverticalmovementoffluidsintheholebetweenporouszones•Formsapermanent,flexibledownholeseal•Allowsholere-entry•Rehydratable•NSF/ANSIStandard60certified
Recommended TreatmentPlugging and Stemming Drill HolesDuetoshippingandhandling,asmallamountoffinebentoniteparticlesmaybepresent.Foroptimumresults,HOLEPLUG® should be poured over a mesh or screen with ¼" (6.4 mm) openings to “sift out” the smaller particles. The screen should be large enough (approx. 1 yd2 or 1m2) to be folded into a “V” shape toallowsiftingwhiletheproductisbeingpouredintothehole.Also,HOLEPLUGshouldbepouredslowly.Allow approximately two minutes to pour a 50-lb (22.7 kg) bag.
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Section15-Page5May 2013
HOLEPLUG® continued
Application AmountsAmounts of HOLEPLUG® Required for Plugging Applications
Hole Diameter
(inches)
Hole Volume
(ft³/ft)
Pounds HOLEPLUG® Needed to
Fill One Foot
Feet Filled by One Bag HOLEPLUG®
Bags HOLEPLUG® Needed to Fill 100 ft
2 0.022 1.6 32.6 3.2
2.5 0.034 2.4 20.5 5.0
3 0.049 3.5 14.3 7.0
3.5 0.067 4.8 10.4 9.6
4 0.087 6.3 7.9 12.6
4.5 0.110 7.9 6.3 15.8
5 0.136 9.8 5.1 19.6
5.5 0.165 11.9 4.2 23.8
6 0.196 14.1 3.5 28.2
6.5 0.230 16.6 3.0 33.2
7 0.267 19.2 2.6 38.4
7.5 0.307 22.1 2.3 44.2
8 0.349 25.1 2.0 50.2
8.5 0.394 28.4 1.8 56.8
9 0.442 31.8 1.6 63.6
9.5 0.492 35.4 1.4 70.8
10 0.545 39.2 1.3 78.4
11 0.660 47.5 1.1 95.0
12 0.785 56.5 0.89 113.0
15 1.227 88.3 0.57 176.6
18 1.767 127.2 0.39 254.4
20 2.182 157.1 0.32 314.2
25 3.409 245.1 0.20 490.8
30 4.909 353.4 0.14 706.8
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Section15-Page6 May 2013
PENETROL®
Wetting Agent
DescriptionPENETROL,awatermiscible,non-ionicwettingagent,isdesignedtocounteractthe sticking tendencies of clay.
Applications/Functions•Reduceoreliminatebitballing•Reducesurfacetensionofdrillingfluid,whichallowsfasterchip
removal without continuously grinding the hard shale formations•Improvedrillingefficiencybypreferentiallycoatingthebottom-holeassemblyanddrillstring•Minimizedifferentialsticking•Increasebitlifeandreducedrillpipeandbottom-holeassemblywear
Advantages•Easytomix•Effectiveinlowconcentrations•CompatiblewithotherBaroiddrillingfluidadditives•Biodegradable•NSF/ANSIStandard60certified
Recommended TreatmentAdded uniformly through entire circulation system•1to4quartsofPENETROLper100gallonsofdrillingfluid•2.5to10litersofPENETROLperm3 of drilling �uid
As a slug down drill rods to counteract the sticking tendencies of clay•1to2quartsofPENETROLperdrillrod•1to2litersofPENETROLperdrillrod
Alternate Application•Dilute1gallonofPENETROLwith10gallonsofwaterandinjectonegallonofmixture
per minute into the pump suction•Dilute3.8litersofPENETROLwith38litersofwaterandinject3.8litersofmixtureper
minute into the pump suction
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Section15-Page7May 2013
POLY-BORETM
Borehole Stabilizing Dry Polymer
DescriptionPOLY-BOREisafreeflowing,water-soluble,easymixing,100%drygranularpolymer.POLY-BOREisaveryhigh molecular weight partially hydrolyzed polyacrylamide (PHPA) polymer. When mixed with fresh water, a smallquantityofPOLY-BOREprovidesaclear,solid-free,viscousboreholestabilizingfluidforuseindrilledshaft, auger drilling, horizontal directional boring, trenching excavation and reverse circulation (RC) rotary drilling.POLY-BOREisnotdesignedtobeusedinconjunctionwithbentonitebasedfluids.
Applications/Functions•Provideaclay-freeboringfluid•Stabilizereactiveclayandshaleformations•Enhancecorerecoveryincontinuouswirelinecoringoperations•Providehighcohesivenesstobindexcavatedsandysoilandgravel•Facilitatetheremovalofdrilledspoilsfromaugersandincreaseexcavationrate•Maximizeloadtransferfordrilledshaftapplication
Advantages•Disperseseasilywithminimalshear•Efficientshale/claystabilizerandviscosifier•Doesnotrequiresolidscontrolunittocleantheslurry•Promotesstableandgageborehole•Resultsinmaximumskinfrictionandultimateendbearingcapacityforadrilledshaft•Non-fermenting•Nopetroleumdistillatesinvolved•Breaksdownchemicallywithbleach(sodiumhypochlorite)•NSF/ANSIStandard60certified
Recommended TreatmentDrilling•Add0.5to1poundofPOLY-BOREdrypolymerper100gallonsoffresh
water (0.6 - 1.2 kg/m3)slowlythroughthehopper.(SeeMixInstructionsbelow)
Mix Instructions•15to20minutestoallowPOLY-BOREtohydrate•Measurethefunnelviscosityofthepolymerslurryandadjustaccordingtorequiredspecifications
Notes:•WaterpHbetween8.5–9.5•Reducetotalhardnessofmake-upwaterbyaddingsodaash(sodiumcarbonate)at0.5to1poundper
100 gallons (0.6 - 1.2 kg/m3) of make-up water.
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Section15-Page8 May 2013
QUIK-GEL®
Viscosi�er
DescriptionQUIK-GELisaneasy-to-mix,finelyground(200-mesh),premium-grade,high-yieldingWyomingsodiumbentonite.QUIK-GELimpartsviscosity,fluidlosscontrolandgellingcharacteristicstofreshwater-baseddrilling �uids.
Applications/Functions•Mixwithfreshwatertoformalow-solidsdrillingfluidforgeneraldrillingapplications•Viscosifywater-baseddrillingfluids•Reducefiltrationbyformingathinfiltercakewithlowpermeability•Improvehole-cleaningcapabilityofdrillingfluids•Mixwithfoamingagentstomake“gel/foam”drillingfluidsforair/foamdrillingapplications
Advantages•NSF/ANSIStandard60certified•Single-sackproductandcosteffective•Provideslubricityfordrillingfluids•Mixeseasilyandquicklyreachesmaximumviscosity•Yieldsmorethantwiceasmuchmudofthesameviscosityasan equalweightofAPIoilfieldgradesofbentonite
Recommended Treatment Mix slowly through a jet mixer or sift slowly into the vortex of a high-speed stirrer.
Additional InformationNote:•Foroptimumyield,pre-treatmake-upwaterwith1 - 2 pounds of soda ash per 100 gallons of water
(1.2 - 2.4 kg/m3)
Application/Desired Result lb/100 gal lb/bbl kg/m3
Normal Drilling Conditions 15-25 6-10 18-30
Unconsonlidated Formations 35-50 15-21 42-60
Make-UpforGel/FoamSystems 12-15 5-7 14-18 •1bbl=42U.S.gallons
ApproximateAmountsofQUIK-GEL® Added to Freshwater
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Section15-Page9May 2013
DescriptionQUIK-GELGOLDTMhigh-yieldviscosifierisaselectivelymined,premiumsodiumbentonitedesignedforwaterwell,mineralsexplorationandotherindustrialdrillingapplications.QUIK-GELGOLDhigh-yieldviscosifierprovidesanoptimizedgrindsizewhichresultsineasymixingandrapidhydrationcharacteristics.Theenhancedviscositydevelopment,filtrationpropertiesandresultantfluidstabilitymakeQUIK-GELGOLDhigh-yieldbentoniteviscosifierthenewbenchmarkintheindustrialdrillingapplicationsmarket.
Applications/Functions•Viscosifyfreshwater-baseddrillingfluids•Mixwithfreshwatertoformalow-solidsdrillingfluidforgeneraldrillingapplications•Reducefiltrationbyformingathinfiltercakewithlowpermeability•Improvehole-cleaningcapabilityofdrillingfluids•Mixwithfoamingagentstomake“gel/foam”drillingfluidsforair/foamdrillingapplications
Advantages•NSF/ANSIStandard60certified•Single-sackproductandcosteffective•Optimizedgrindsizeforenhancedmixingandyield•Easytomixandquicklyreachesmaximumviscosity•Yieldsmorethantwiceasmuchdrillingfluidofthesame viscosityasanequalconcentrationofAPIgradebentonite
Recommended Treatment Mix slowly through a jet mixer or sift slowly into the vortex of a high-speed stirrer.
QUIK-GEL GOLDTM
Viscosi�er
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Section15-Page10 May 2013
Approximate Amounts of QUIK-GEL GOLDTM High-YieldViscosifier Added to Freshwater
lb/100 gal lb/bbl kg/m3Application/Desired Result
Normal Drilling Conditions
Unconsolidated Formations
Make-Up For Gel/Foam Systems
• 1 bbl = 42 U.S. gallons
15-25
25-40
12-15
6.3-10.5
10.5-16.8
5.0-6.3
18-30
30-48
14-18
Approximate Amounts of QUIK-GEL GOLDTM High-YieldViscosifier Added to Freshwater
lb/100 gal lb/bbl kg/m3Application/Desired Result
Normal Drilling Conditions
Unconsolidated Formations
Make-Up For Gel/Foam Systems
• 1 bbl = 42 U.S. gallons
15-25
25-40
12-15
6.3-10.5
10.5-16.8
5.0-6.3
18-30
30-48
14-18
Additional InformationNote:•Foroptimumyield,pre-treatmake-upwaterwith1 - 2 pounds
of soda ash per 100 gallons of water (1.2 - 2.4 kg/m3).
Packaging QUIK-GELGOLDTMhigh-yieldviscosifierispackagedin50-lb(22.7-kg)multiwallpaperbags.
QUIK-GEL GOLDTM continued
Application/Desired Result lb/100 gal lb/bbl kg/m3
Normal Drilling Conditions 15-25 6.3-10.5 18-30
Unconsonlidated Formations 25-40 10.5-16.8 30-48
Make-UpforGel/FoamSystems 12-15 5.0-6.3 14-18
•1bbl=42U.S.gallons
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Section15-Page11May 2013
DescriptionCORE-LUBEisanatural,linseed-basedsoftsoapusedasacoretubelubricantondiamondcoredrills.
Applications/Functions•Facilitatethecoreslidingintotheinnertube•Lubricatethecorelifter•Minimizewearontheinnertube•Formulateanon-pollutingwater-basedsolutionforcleaninginnertubecomponentsandrigequipment
Advantages•Improvescorerecovery•Extendslengthofcoreruninbrokenground•Lengthensuseablelifeofdownholewirelinecomponents
Recommended TreatmentAs aid in core recovery•AhandfulorsaturatedswabofCORE-LUBEmaybesmearedinsidethebottomoftheinnertube
before it is inserted into the drill rods. Also, a liberal amount may be applied to the core lifter parts.
As a cleaning solution for drill rig components•MixonequartofCORE-LUBEwith50gallonsofwateror5litresofCORE-LUBEperm3 of water.
Packaging CORE-LUBEispackagedin25-lb(11.4kg)resealableplasticpailswithwirebailhandles.
CORE-LUBETM
Core Tube Lubricant
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Section16-Page1May 2013
Unit Conversion
Metric
1 millimeter (mm)
0.3048 meter (m)
0.9144 meter (m)
1 meter (m)
1 kilogram (kg)
1 tonne (t)
1 megapascal (MPa)
Imperial
0.03937 inch (in)
1 foot (ft)
1 yard (yd)
1.0936 yd
2.2046 pounds (lb)
0.9842 ton
145 pounds/square inch (psi)
Unit Conversion Chart
Metric Imperial
1 millimeter (mm) 0.03937 inch (in)
0.3048 meter (m) 1 foot (ft)
0.9144 meter (m) 1 yard (yd)
1 meter (m) 1.0936 yd
1 kilogram (kg) 2.2046 pounds (lb)
1 tonne (t) 0.9842 ton
1 megapascal (MPa) 145 pounds/square inch (psi)
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USADSIUndergroundSystems,Inc.9786 S Prosperity RoadWest Jordan, UT 84081, USAPhone: +1-801 973-7169Fax: +1-801 973-7172
DSIUndergroundSystems,Inc.447 DuPont Rd.Martinsburg, WV 25404, USAPhone: +1-800 332-3308Fax: +1-304 274-4194
DSIUndergroundSystems,Inc.700 Technology DriveSouth Charleston, WV 25309, USAPhone: +1-800 547-4751Fax: +1-304 553-0924
DSIUndergroundSystems,Inc.5400 Foundation Blvd. Evansville,IN47725,USAPhone: +1-812 214-2968Fax: +1-888 309-0882
DSIUndergroundSystems,Inc.9344 Sunrise RoadCambridge,Ohio43725,USAPhone: +1-800 457-7633Fax: +1-740 432-2827
DSIUndergroundSystems,Inc.26161OldTrailRoadAbingdon VA 24210-7631, USAPhone: +1-276 623-2784Fax: +1-276 623-8273
DSIUndergroundSystems,Inc.1774 Mellwood AveLouisville KY 40206-1756, USAPhone: +1-502 473-1010Fax: +1-502 473-0707
DSIUndergroundSystems,Inc.1032 East Chestnut StreetLouisville KY 40204-1019, USAPhone: +1-502 583-1001Fax: +1-502 583-7865
CanadaDSICanadaLtd.3919 Millar AvenueSaskatoon SK S7P 0C1, CanadaPhone: +1-306 244-6244Fax: +1-306 931-3481
Please Note: This brochure serves basic informationpurposes only. Technical data and informationprovided herein shall be considerednon-binding and may be subject to changewithout notice. We do not assume any liabilityfor losses or damages attributed to the useof this technical data and any improperuse of our products. Should you requirefurther information on particular products,please do not hesitate to contact us. www.dsiunderground.com
DSICanadaLtd.199 Mumford RoadUnit C&DLivelyONP3Y1L2,CanadaPhone: +1-705 692-6100Fax: +1-705 692-0441
DSICanadaLtd.853 Boulevard RideauRouyn-Noranda,QCJ9Y0G3,CanadaPhone: +1-819 762-0901Fax: +1-819 797-1367
MexicoDSInternationalS.A.deC.V.Carretera a Base Aérea Militar No. 1002Bodegas 13, 14 & 15ParqueIndustrialFERRANSanJuandeOcotán,Zapopan,JaliscoMéxico CP 45010Phone: +52-33-3366-57-94Fax: +52-33-3366-58-03
BrazilDSIUndergroundBrasilRua Um, 276 DistritoIndustrialdabelaFamaNovaLima/MG,BrazilPhone: +55-31-35 42 02 00Fax: +55-31-35 42 08 10
ChileDSIChileIndustrialLtda.LasEncinas#1387ValleGrandeLampa, Santiago de Chile, ChilePhone: +56-2-596 96 20Fax: +56-2-596 96 69
ColombiaDSIColombiaS.A.SCarrera43ANo.8sur–15Oficina403EdificioTorreOviedoMedellín, ColombiaPhone: +57-4-403 12 00Fax: +57-4-403 12 01
PeruDSIPeruS.A.C.Calle Rodolfo Beltran No. 947Lima 1, PerúPhone: +51-1-431 3157Fax: +51-1-638 3201
purposes only. Technical data and information
non-binding and may be subject to changewithout notice. We do not assume any liability
Fax: +51-1-638 3201