1304 meeting street charleston, sc...
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CAROLINA’S RIGGING
&CRANE
2052 Gordon Hwy., Augusta, GA 30909
(706) 396-1700Toll Free: (866) 385-9346
Fax: (706) 396-1705
CAROLINA’S RIGGING
&CRANE
1219 Bluff Road, Columbia, SC 29201
(803) 799-7702Toll Free: (800) 745-6627
Fax: (803) 799-7518
1304 Meeting StreetCharleston, SC 29405
(843) 723-7145Toll Free: (800) 742-6703
Fax (843) 723-5859
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
SLING GUIDELINES
ANSI and OSHA Regulations
ANSI B30.9 OSHA - 1910.184 & 1926.251I.D. Tagging *Required on all Chain,
Synthetic & Wire Rope Slings*Required on Chain & Synthetic - Wire Rope Slings not addressed
Proof Testingto twice theWorking Load Limit
*Required on Welded Chain Slings*Allows use of Proof-Tested components
for Assembled Chain Slings
Required @ User’s RequestWire Rope SlingsSynthetic Web Slings
Required of Spelter Sockets & Swage Fittings
Required on Welded Chain Slings
Not Required of Synthetic Web
Design Factor Chain & Fittings = 4/1Wire Rope Fittings
and Synthetic Lift Slings =5/1
Same as ANSISame as ANSI
Use of ForgedWire Rope Clips
*Prohibits Use of Wire RopeClips to make Eyes in Slings
*Malleable Clips not allowedin Critical Applications
Same as ANSISame as ANSI
Requirements, Materials and Types - Permanent part of Slings
*Chain - Grade 80 or 100with Fittings to Match.
Fittings & Sling Materials must meet load ratings
Same as ANSI
Loose Fittings Used with Slings
*Use within rated load and use according to mfg. recommendations
Same as ANSI
Sling Angle *No sling angle allowed less than 30 degrees to the load horizontal
Same as ANSI
D/d for Wire Rope Slings
*25/1 for many Standard Wire Ropesused in Basket Hitch40/1 for Stiffer Wire Ropes used in Basket Hitch5/1 for GrommetsUser must derate if lower D/d ratios
20/1 for many Standard Wire Ropesused in Basket HitchSame as ANSI
Same as ANSISame as ANSI
NOTE: REFER TO ANSI B30.9 AND OSHA 1910.184/1926.251 FOR MORE DETAILED INFORMATION
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 1
It is of utmost importance that anyone using this publication read and understand all warnings and other information listed below and/or adjacent to the product description. All products are sold with the express understanding that the purchaser is thoroughly familiar with the correct application and safe use. Use all products properly, in a safe manner and for the application for which they were intended. CHARLESTON’S/CAROLINA’S RIGGING assumes no responsibility for the use or misapplication of any product sold by this firm. Responsibility for design and use decisions rests with the user.
IMPORTANT WARNINGSREMEMBER: ANY PRODUCT WILL BREAK IF ABUSED, MISUSED OR OVERUSED. Any well-designed and well-built product can become hazardous in the hands of a careless user. THEREFORE:
It would be impossible in the scope of this publication to list all possible dangers and misapplications associated with the use of all products contained herein. However, in order to promote safe rigging habits, the most common hazards associated with the use of these products are outlined.
Rigging manuals or other, more specific, literature should be consulted for more detailed information and cautions.
exceed the Work Load Limit (WLL) or Rated Capacity. The Work Load Limit is the maximum load which should ever be applied to the product, even when the product is new and when the load is uniformly applied - straight line pull only. All catalog ratings are based upon usual environmental conditions, and consideration must be given to unusual conditions such as extreme high or low temperatures, chemical solutions or vapors, prolonged immersion in salt water, etc. Such conditions or high-risk applications may necessitate reducing the Work Load Limit..
- Components must match. Make certain that components such as hooks, links or shackles, etc. used with wire rope (or chain or cordage) are of suitable material and strength to provide adequate safety protection. Attachments must be properly installed and must have a Work Load Limit at least equal to the product with which they are used.REMEMBER: Any chain is only as strong as its weakest link.- Keep out from under a raised load. Take notice of the recommendation from the National Safety Council Accident Prevention Manual concerning all lifting operations:
“All employees working with cranes or hoists or assisting in hooking or arranging a load should be instructed to . From a safety standpoint, one factor is paramount: Conduct all lifting operations in such a manner that, if there were an equipment failure, no personnel would be injured. This means
- Avoid impact jerking or swinging of load - Work Load Limit will not apply. A shock load is generally significantly greater than the static load. - Inspect products regularly for visible damage, cracks, wear elongations, rust, etc. Protect all products from corrosion. The need for periodic inspections cannot be overemphasized. No product can keep operating at its rated capacity indefinitely. Periodic inspections help determine when to replace a product and reduce rigging hazards. Keep inspection records to help pinpoint problems and to ensure periodic inspection intervals.
Due to the diversity of the products involved and uses to which they can be put, it would be counterproductive to make blanket recommendations for inspection procedures and frequency. Best results will be achieved when qualified personnel base their decisions on information from rigging and engineering manuals and on from actual use in the field.
Frequency of inspection will depend on environmental conditions, application, storage or product prior to use, frequency of use, whether or not life, limb or valuable property are at
risk, etc. When in doubt, inspect products prior to each use. Carefully check each item to be inspected for wear, deformation, cracks or elongation - a sure sign of imminent failure. Immediately withdraw such items from service.
Rust damage is another potential hazard. When in doubt about the extent of corrosion or other damage, withdraw the items from service.
Destroy, rather than discard, items that have been judged defective. They might be used again by someone not aware of the hazard of the defect.
DEFINITIONS
WORK LOAD LIMIT (WLL) - The Work Load Limit is the maximum load which should never be applied to the product, even when the product is new and when the load is uniformly applied - straight line pull only.Avoid side loading. Never exceed the Working Load Limit.
PROOF TEST LOAD (PROOF LOAD) - The term “Proof Test” designates a quality control test applied to the product for the sole purpose of detecting defects in material or manufacture. The Proof Test Load (usually twice the Work Load Limit ) is the load which the product withstood without deformation when new and under laboratory test conditions. A constantly increasing force is applied in direct line to the product at a uniform rate of speed on a standard pull testing machine.
BREAKING STRENGTH/ULTIMATE STRENGTH - Do not use breaking strengths as criterion for service or design purpose. Refer to the Work Load Limit instead.
Breaking strength is the average force at which the product, in the condition it would leave the factory, has been found by representative testing to break when a constantly increasing force is applied in direct line to the product at a uniform rate of speed on a standard pull testing machine.
REMEMBER: Breaking strengths, when published, were obtained under controlled laboratory conditions that are almost always impossible to duplicate in actual use.
DESIGN FACTOR - (sometimes referred to as safety factor) - An industry term denoting theoretical reserve capability. Usually computed by dividing the catalog Breaking Strength by the catalog Work Load Limit and generally expressed as a ratio. For example: 5 to 1.
SHOCK LOAD - A load resulting from the rapid change of movement, such as impacting, jerking or swinging of a static load. Sudden release of tension is another form of shock loading. Shock loads are generally significantly greater than static loads. Any shock loading must be considered when selecting the item for use in a system. AVOID SHOCK LOADS.
IMPORTANT: READ WARNINGS BEFORE USING THIS PUBLICATION
BE ON THE SAFE SIDE
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 2
EFFECTS OF ANGLES ON SLING CAPACITIES
WIRE ROPE SLING REJECTION CRITERIA
1. For strand laid and single part slings, ten (10) randomly distributed broken wires in one rope lay, or five (5) broken wires in one strand in one rope lay.
2. For cable laid and braided slings of less than 8 parts, twenty (20) randomly distributed broken wires in one lay or braid, or on (1) broken strand per sling.
3. For braided slings of 8 parts or more, forty (40) randomly distributed broken wires in one braid, or two (2) broken strands per sling.
4. Severe localized abrasion or scraping.5. Kinking, crushing, birdcaging or any other damage
resulting in distortion of the wire rope structure.
6. Evidence of heat damage or if a wire rope sling having a fiber core is exposed to temperatures in excess of 200° F. or if a wire rope sling having a steel core is used at temperatures above 400° F or below minus 60° F.
7. End attachments that are cracked, deformed, or worn.
8. Deformation–any visibly apparent bend or twist from the plane of the unbent hook. Throat opening–any distortion causing an increase in throat opening of 5% not to exceed 1/4in. (6mm) (or as recommended by the manufacturer)
9. Corrosion of the rope or end attachments.10. Unlaying or opening up of a tucked splice.
Conditions such as the following should be sufficient reason for consideration of sling replacement:
The rated capacity of a multiple leg sling is directly affected by the angle of the sling leg with the vertical. As this angle increases, the stress on each leg increases with the same load. If the sling angle is known, the capacity can be readily determined by multiplying the sling’s vertical capacity by the appropriate load angle factor from the table at right.
Example:A multiple leg sling with a rated capacity of 2000lb. will have a reduced capacity of 1000lb. (2000 x .500) when sling legs are at an angle of 60° with vertical.
Sling Angle
Load Angle Factor
0 (Vertical) 1.00015˚ .96630˚ .86645˚ .70760˚ .50075˚ .259
verticalsling angle
0º
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 3
SINGLE LEG SLINGS
TWO LEG BRIDLE SLINGS
Diam of
Rope in.
MinLength (SL) of Sling ft–in.
Loop Dimen-sions
Chok-er
Hitch
Single Leg
VerticalWin.
Lin.
¼ 1–6 2 4 .48 .65⅜ 2 3 6 1.1 1.4½ 2–6 4 8 1.9 2.5⅝ 3 5 10 2.9 3.9¾ 3–6 6 12 4.1 5.6⅞ 4 7 14 5.6 7.61 4–6 8 16 7.2 9.81⅛ 5 9 18 9.1 121¼ 5–6 10 20 11 151⅜ 6 11 22 13 181½ 7 12 24 16 211¾ 8 14 28 21 282 9 16 32 28 37
2¼ 10 18 36 35 442½ 11 20 40 42 542¾ 12 22 44 51 653 13 24 48 60 77
3½ 16–6 32 64 79 102
Diam of
Rope in.
MinLength (SL) of Sling ft–in.
Rated Capacities When Used
60˚ 45˚ 30˚
¼ 1–3 1.1 .91 .65⅜ 1–8 2.5 2.0 1.4½ 2–0 4.4 3.6 2.5⅝ 2–4 6.8 5.5 3.9¾ 2–9 9.7 7.9 5.6⅞ 3–3 13 11 7.61 3–6 17 14 9.81⅛ 4–0 21 17 121¼ 4–6 26 21 151⅜ 5–0 31 25 181½ 5–6 37 30 211¾ 6–6 49 40 282 8–0 63 52 37
Rated Capacities in Tons (2000 lb) IWRC - EIP6 x 19 and 6 x 36 Classification Wire Rope
Rated Capacities in Tons (2000 lb) IWRC - EIP6 x 19 and 6 x 36 Classification Wire Rope
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 4
THREE LEG BRIDLE SLINGS
FOUR LEG BRIDLE SLINGS
Rated Capacities in Tons (2000 lb) IWRC - EIP6 x 19 and 6 x 36 Classification Wire Rope
Diam of
Rope in.
MinLength (SL) of Sling ft–in.
Rated Capacities in Tons When Used
60˚ 45˚ 30˚
¼ 1–3 1.7 1.4 .97⅜ 1–8 3.7 3.0 2.2½ 2–0 6.6 5.4 3.8⅝ 2–4 10 8.3 5.9¾ 2–9 15 12 8.4⅞ 3–3 20 16 111 3–6 26 21 151⅛ 4–0 31 26 181¼ 4–6 38 31 221⅜ 5–0 46 38 271½ 5–6 55 45 321¾ 6–6 74 60 422 8–0 95 78 55
Rated Capacities in Tons (2000 lb) IWRC - EIP6 x 19 and 6 x 36 Classification Wire Rope
Diam of
Rope in.
MinLength (SL) of Sling ft–in.
Rated Capacities in Tons When Used
60˚ 45˚ 30˚
¼ 1–3 2.2 1.8 1.3⅜ 1–8 5.0 4.1 2.9½ 2–0 8.8 7.1 5.1⅝ 2–4 14 11 7.8¾ 2–9 19 16 11⅞ 3–3 26 21 151 3–6 34 28 201⅛ 4–0 42 34 241¼ 4–6 51 42 301⅜ 5–0 62 50 361½ 5–6 73 60 421¾ 6–6 98 80 572 8–0 127 104 73
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 5
CHOKER TYPES & CAPACITIES
CHOKER HITCH RATED CAPACITY ADJUSTMENT
Diam of
Rope in.
Rated Capacities Slip-thru Thimbles Loops
Purple Rope IWRC
SlingsN. 135-B and 136-B
Slings No.137-A and 138-A
Size No.
Win.
Lin.
Win.
Lin.
¼ .48 W-2 2⅛ 4⅛ 2 4⅜ 1.1 W-2 2⅛ 4⅛ 3 6½ 1.9 W-3 2⅜ 4⅜ 4 8⅝ 2.9 W-4 3⅜ 6⅝ 5 10¾ 4.1 W-4 3⅜ 6⅝ 6 12⅞ 5.6 W-5 3¾ 7⅛ 7 141 7.2 W-5 3¾ 7⅛ 8 161⅛ 9.1 W-6 4⅜ 8⅜ 9 181¼ 11 W-6 4⅜ 8⅜ 10 201⅜ 13 W-7 5 9½ 11 221½ 16 W-7 5 9½ 12 24
Rated Capacities in Tons (2000 lb) IWRC - EIP6 x 19 and 6 x 36 Classification Wire Rope
Rated capacities of choker hitches apply when the angle of choke is greater than 120˚
Angle of Choke Rated Capacity IWRC and FC rope Percent*
90 to less than 120 8760 to less than 89 7430 to less than 59 620 to less than 29 49
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 6
3-PART BRAIDHAND TUCKED SPLICE
IWRC
Multi-PartSlings 3-Part
VERTICAL, CHOKER OR VERTICAL BASKET RATED CAPACITY IN TONS OF 2,000 lbs.
RATED CAPACITIES SHOWN APPLY ONLY TO 6X19 AND 6 X36 CLASSIFICATION WIRE ROPE
ROPE VERTICAL CHOKER VERTICAL BASKET DIAMETER X e (INCHES) u
EIPS EIPS EIPS
3/32* 1/8* 3/16 0.8 0.71 1.6
1/4 1.4 1.2 2.9 5/16 2.2 1.9 4.4 3/8 3.2 2.8 6.3
7/16 4.3 3.7 8.6 1/2 5.6 4.9 11
9/16 7.1 6.2 14
5/8 8.7 7.6 17 3/4 12 11 25 7/8 17 15 33
1 22 19 43 l 1/s 27 24 55 l 1/4 34 29 67
P/s 40 35 81 l 1/2 48 42 96 J 5/s 55 49 111
I3/4 64 56 129 l 7/s 73 64 l-l-6 2 83 73 166
* NOTE: 3/32 & 1/8 utilize Galvanized Small Cord minimum breaking force.RATED CAPACITIES BASKET HITCH BASED ON D/d RATIO OF 25 TIMES THE cmIPO'.\E'.\T ROPE DIAMETER.RATED CAPACITIES BASED ON PIN DIAMETER NO LARGER THAN NATURAL EYE WIDTH
OR LESS THAN THE NOMINAL SLING DIAMETERRATED CAPACITIES BASED ON DESIGN FACTOR OF 5HORIZONTAL SLING ANGLES LESS THAN 30 DEGREES SHALL NOT BE USED
Wire Rope Technical Board - Wire Rope Sling Users Manual, Third Edition • 67
4-PART BRAID
HAND TUCKED SPLICE IWRC
Multi-Part Slings
4-Part
VERTICAL, CHOKER OR VERTICAL BASKET RATED CAPACITY IN TONS OF 2,000 lbs.
RATED CAPACITIES SHOWN APPLY ONLY TO 6X19 AND 6X36 CLASSIFICATION WIRE ROPE
ROPE VERTICAL CHOKER VERTICAL BASKET DIAMETER I t)(INCHES) u
EIPS EIPS EIPS
3/16 1.1 0.94 2.2 1/4 1.9 1.7 3.8 5/16 3.0 2.6 5.9
3/8 4.2 3.7 8.5 7/16 5.7 5.0 11
1/2 7.4 6.5 15
9/16 9.4 8.2 19 5/8 12 10 23 3/4 16 14 33
7/8 22 20 45 1 29 25 58
l 1/s 36 32 73
Jl/4 45 39 89 I 3/s 54 47 108 I 112 64 56 128
I5/s 74 65 148 I3/4 86 75 171
l 7/s 97 85 195
2 111 97 222
RATED CAPACITIES BASKET IDTCH BASED ON Did RATIO OF 25 TIMES THE COMPONENT ROPE DIAMETER. RATED CAPACITIES BASED ON PIN DIAMETER NO LARGER THAN NATURAL EYE WIDTH
OR LESS THAN THE NOMINAL SLING DIAMETER RATED CAPACITIES BASED ON DESIGN FACTOR OF 5 HORIZONTAL SLING ANGLES LESS THAN 30 DEGREES SHALL NOT BE USED
3 Part Braided Slings
4 Part Braided Slings
RATED CAPACITIES BASKET HITCH BASED ON D/d RATIO OF 25 TIMES THE COMPONENT ROPE DIAMETER. RATED CAPACITIES BASED ON PIN DIAMETER NO LARGER THAN NATURAL EYE WIDTH OR LESS THAN THE NOMINAL SLING DIAMETERRATED CAPACITIES BASED ON DESIGN FACTOR OF 5HORIZONTAL SLING ANGLES LESS THAN 30 DEGREES SHALL NOT BE USED
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 7
6-PART BRAID
HAND TUCKED SPLICE IWRC
Multi-Part Slings
6-Part
VERTICAL, CHOKER OR VERTICAL BASKET RATED CAPACITY IN TONS OF 2,000 lbs.
RATED CAPACITIES SHOWN APPLY ONLY TO 6X19 AND 6X36 CLASSIFICATION WIRE ROPE
ROPE VERTICAL CHOKER VERTICAL BASKET DIAMETER X �
(INCHES) u EIPS EIPS EIPS
3/32* 1/8* 3/16 1.6 1.4 3.2
1/4 2.9 2.5 5.7 5/16 4.4 3.9 8.9
3/8 6.3 5.5 13
7/16 8.6 7.5 17
1/2 11 9.8 22
9/16 14 12 28
5/8 17 15 35
3/4 25 22 49
7/8 33 29 67
1 43 38 87 l 1/s 55 48 109 l 1/4 67 59 134
P/s 81 71 161
Ph 96 84 192
I5/s 111 97 222
I3/4 129 112 257
I7/s 146 128 292
2 166 146 333
* NOTE: 3/32 & 1/8 utilize Galvanized Small Cord minimum breaking force.RATED CAPACITIES BASKET HITCH BASED ON D/d RATIO OF 25 TIMES THE CO:\IPO'.\T",,- ROPE DIAMETER.RATED CAPACITIES BASED ON PIN DIAMETER NO LARGER THAN NATUR..\.L EYE WIDTH
OR LESS THAN THE NOMINAL SLING DIAMETERRATED CAPACITIES BASED ON DESIGN FACTOR OF 5HORIZONTAL SLING ANGLES LESS THAN 30 DEGREES SHALL NOT BE USED
8-PART BRAID
HAND TUCKED SPLICE IWRC
Multi-Part Slings
8-Part
VERTICAL, CHOKER OR VERTICAL BASKET RATED CAPACITY IN TONS OF 2,000 lbs.
RATED CAPACITIES SHOWN APPLY ONLY TO 6Xl9 AND 6X36 CLASSIFICATION WIRE ROPE
ROPE VERTICAL CHOKER VERTICAL BASKET DIAMETER I (INCHES) 0 u
EIPS EIPS EIPS
3/32* 1/8* 3/16 2.2 1.9 4.3
1/4 3.8 3.3 7.6 5/16 5.9 5.2 12 3/8 8.5 7.4 17
7/16 11 10 23 1/2 15 13 30 9/16 19 16 38
5/8 23 20 46 3/4 33 29 66 7/8 45 39 89
1 58 51 116 l1/s 73 64 146 Il/4 89 78 179
l3/s 108 94 215 Il/2 128 112 255 I5/s 148 129 296
l 3/4 171 150 343 l7/s 195 171 390 2 222 194 444
* NOTE: 3/32 & 1/8 utilize Galvanized Small Cord minimum breaking force.RATED CAPACITIES BASKET HITCH BASED ON D/d RATIO OF 25 TThffiS 11IE COMPONENT ROPE DIAMETER.RATED CAPACITIES BASED ON PIN DIAMETER NO LARGER THAN NATIJllAL EYE WIDTH
OR LESS THAN THE NOMINAL SLING DIAMETERRATED CAPACITIES BASED ON DESIGN FACTOR OF 5HORIZONTAL SLING ANGLES LESS THAN 30 DEGREES SHALL NOT BE USED
6 Part Braided Slings
8 Part Braided Slings
RATED CAPACITIES BASKET HITCH BASED ON D/d RATIO OF 25 TIMES THE COMPONENT ROPE DIAMETER. RATED CAPACITIES BASED ON PIN DIAMETER NO LARGER THAN NATURAL EYE WIDTH OR LESS THAN THE NOMINAL SLING DIAMETERRATED CAPACITIES BASED ON DESIGN FACTOR OF 5HORIZONTAL SLING ANGLES LESS THAN 30 DEGREES SHALL NOT BE USED
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 8
Grommets, Strand Laid
MECHANICAL SPLICE
IWRC
VERTICAL, CHOKER OR VERTICAL BASKET RATED CAPACIT Y IN TONS OF 2,000 lbs.
RATED CAPACITIES SHOWN APPLY ONLY TO 6Xl9 AND 6X36 CLASSIFICATION WIRE ROPE
GROMMET BODY
DIAMETER (INCHES)
VERTICAL CHOKER VERTICAL BASKET
1/4 5/16 3/8
7/16 1/2 9/16
5/8 3/4 7/8
1 l1/8l1/4
I3/8 l1/2l5/8
l3/4 l7/8 2
21/8 21/4 23/s 2112 2s;s 23/4
27/g 3
0 EIPS
1.1 1.6 2.4
3.2 4.1 5.2
6.4 9.2 12
16 20 25
30 36 41
48 54 62
69 77 85
94 103 113
122 133
b EIPS
0.74 1.2 1.6 2.2 2.9 3.7
4.5 6.4 8.7
11 14 17
21 25 29
33 38 -+3 -l.8 )-+ 60 66 72 79
86 93
RATED CAPACITIES BASKET HITCH AND VERTICAL LIFT BASED ON Did RATIO OF 5 WHERE "d" = BODY DIAMETER OF THE FINISHED GROMMET
RATED CAPACITIES BASED ON DESIG� FACTOR OF 5
M
RATED CAPACITIES BASED ON PIN DU.:\IETER '.';0 S�I.ALLER THAN 5 TIMES THE BODY DIAMETER HORIZO!'.TAL SLL�G ANGLES LESS TIL-\.:--; 30 DEGREES Sll-\.LL �OT BE USED
EIPS 2.1 3.3 4.7
6.4 8.3 10
13 18 25
32 41 50
60 71 82
95 109 124
138 154 171
188 207 225
245 265
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 9
OPEN/CLOSED SWAGE SOCKETS
Diam of Rope in.
Min Length (SL) of Sling ft-in.
IWRC-EIPS
Single Part Vertical
¼ 0–11 .68⅜ 1–3 1.5½ 1–8 2.7⅝ 2–0 4.1¾ 2–5 5.9⅞ 2–10 8.01 3–2 101⅛ 3–7 131¼ 4–0 161⅜ 4–5 191½ 4–9 231¾ 5–5 312 6–4 40
Rated Capacities in Tons (2000 lb)EIP CAP
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 10
BRIGHT WIRE ROPE6 x 19 CLASS
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 11
BRIGHT WIRE ROPE 6 x 37 CLASS
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 12
ENDLESS ROUND SLINGS
SPECIFICATIONS AND RATED CAPACITY IN POUNDS
Gray Cordura and Nylon Wear Pads
Color Code Size
Approx. Body Diameter Inches Vertical Choker Basket 60 Degree 45 Degree
Purple 1 0.60 2,600 2,100 5,200 4,500 3,700Green 2 0.80 5,300 4,200 10,600 9,200 7,500Yellow 3 1.00 8,400 6,700 16,800 14,500 11,900Tan 4 1.20 10,600 8,500 21,200 18,400 15,000Red 5 1.30 13,200 10,600 26,400 22,900 18,700White 6 1.40 16,800 13,400 33,600 29,100 23,800Blue 7 1.55 21,200 17,000 42,400 36,700 30,000Orange 8 1.75 25,000 20,000 50,000 43,300 35,400Orange 9 1.95 31,000 24,800 62,000 53,700 43,800Orange 10 2.35 40,000 32,000 80,000 69,300 56,600Orange 11 3.15 53,000 42,400 106,000 91,800 74,900Orange 12 3.95 66,000 52,800 132,000 114,300 93,300Orange 13 4.80 90,000 72,000 180,000 155,900 127,300
○ Light weight but high strength ○ Hug and grip uneven and odd-shaped loads ○ Low-stretch design (3% at rated capacity, returns to original length) ○ Two layer jacket construction to help protect from abrasion & wear ○ All polyester construction to virtually eliminate moisture absorption, rot & mildew for long
service life. Also offers resistance to common industrial acids (except sulfuric acid) and hot bleaching solutions. Can be used in presence of chemicals such as alcohol, dry cleaning solvents, hydrocarbons, oils, soaps, seawater and weak alkalis.
○ Color Coded for easy identification of rated capacity ○ Durable tags with size, type and rated capacity ○ Various Wear Pads Available
Warning: Horizontal sling angles less than 30 degrees shall not be usedWARNINGS:
○ Do not expose Round Slings to strong alkalis at high temperatures ○ Do no use at temperatures above 194 degrees F or below -40 degrees F ○ Avoid sling contact with sharp surfaces ○ Failure to follow proper care, use and inspection criteria may result in injury or death ○ DO NOT EXCEED RATED CAPACITIES
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 13
Synthetic Web Handbook
Eye & Eye-FlatEEF – Type 3
Eye & Eye-TwistEET – Type 4
Rated capacity in pounds
Nominal Nominal
Vertical Choker 60° 45° 30° Eye EyeWidth Length Width
Stock no. (inches) Ply L (inches) W (inches)
-1-901 1 1 1,600 1,280 3,200 2,771 2,262 1,600 9 1
-2-901 1 2 3,100 2,480 6,200 5,369 4,383 3,100 9 1
-3-901 1 3 4,100 3,300 8,200 7,052 5,781 4,100 12 1
-4-901 1 4 5,500 4,400 11,000 9,526 7,777 5,500 12 1
-1-902 2 1 3,100 2,480 6,200 5,369 4,383 3,100 9 2
-2-902 2 2 6,200 4,960 12,400 10,738 8,767 6,200 9 2
-3-902 2 3 8,200 6,600 16,400 14,104 11,562 8,200 12 2
-4-902 2 4 11,000 8,800 22,000 19,052 15,554 11,000 12 2
-1-903 3 1 4,700 3,760 9,400 8,140 6,646 4,700 12 1 1/2
-2-903 3 2 8,800 7,040 17,600 15,242 12,443 8,800 12 1 1/2
-3-903 3 3 12,300 9,900 24,600 21,156 17,343 12,300 15 1 1/2
-4-903 3 4 16,400 13,120 32,800 28,405 23,190 16,400 15 1 1/2
-1-904 4 1 6,200 4,960 12,400 10,738 8,767 6,200 12 2
-2-904 4 2 11,000 8,800 22,000 19,052 15,554 11,000 12 2
-3-904 4 3 15,300 12,200 30,600 26,316 21,573 15,300 15 2
-4-904 4 4 20,400 16,320 40,800 35,333 28,846 20,400 15 2
-1-906 6 1 9,300 7,440 18,600 16,108 13,150 9,300 12 2
-2-906 6 2 16,500 13,200 33,000 28,578 23,331 16,500 15 2
-3-906 6 3 22,900 18,300 45,800 39,388 32,289 22,900 18 3
-4-906 6 4 30,600 24,480 61,200 52,999 43,268 30,600 18 3
-1-908 8 1 11,800 9,440 23,600 20,438 16,665 11,800 18 3
-2-908 8 2 22,700 18,160 45,400 39,316 32,098 22,700 18 3
-3-908 8 3 30,700 24,600 61,400 52,804 43,287 30,700 24 4
-4-908 8 4 40,960 32,768 81,920 70,451 57,753 40,960 24 4
-1-910 10 1 14,700 11,760 29,400 25,460 20,786 14,700 18 3 1/2
-2-910 10 2 28,400 22,720 56,800 49,189 40,158 28,400 18 3 1/2
-3-910 10 3 36,000 28,800 72,000 61,920 50,760 36,000 24 5
-4-910 10 4 48,000 38,400 96,000 82,560 67,680 48,000 24 5
-1-912 12 1 17,600 14,080 35,200 30,483 24,886 17,600 24 4
-2-912 12 2 34,100 27,280 68,200 59,061 48,217 34,100 24 4
-3-912 12 3 40,300 32,200 80,600 69,316 56,823 40,300 24 6
-4-912 12 4 53,760 43,008 107,520 92,467 75,801 53,760 24 6
Basket Hitch
Lighter duty “60” capacities available upon request.* Insert EEF prefix to indicate Type 3 and EET prefix to indicate Type 4.
See page 16 to see Types 3 and 4 light-duty slings.Warning: Horizontal sling angles less than 30° shall not be used.
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 14
Web Handbook
Lighter duty “60” capaci es available upon request.Please specify when sling is to be tapered at hook contact area.*Three-ply slings are tapered by special request only.
EndlessEN – Type 5
These are nylon or polyester web slings designed for use in ver cal,
choker and basket hitches. Legs may be spaced for load stability. Hook
points can be tapered to fit hoist hooks and are reinforced upon request.
Rated capacity in pounds
Ver l Choker 60° 45° 30° Width Width Length
Stock no. (inches) Ply W (inches) L (inches)
EN-1-901 1 1 3,200 2,560 6,400 5,542 4,525 3,200 — —
EN-2-901 1 2 6,200 4,960 12,400 10,738 8,767 6,200 — —
EN-3-901 1 3 8,200 6,600 16,400 14,104 11,562 8,200 — —
EN-4-901 1 4 11,000 8,800 22,000 19,052 15,554 11,000 — —
EN-1-902 2 1 6,200 4,960 12,400 10,738 8,767 6,200 1 9
EN-2-902 2 2 12,400 9,920 24,800 21,477 17,534 12,400 1 9
EN-3-902 2 3 16,500 13,200 33,000 28,380 23,265 16,500 * *
EN-4-902 2 4 22,000 17,600 44,000 38,104 31,108 22,000 — —
EN-1-903 3 1 9,400 7,520 18,800 16,281 13,292 9,400 1 1/2 12
EN-2-903 3 2 17,600 14,080 35,200 30,483 24,866 17,600 1 1/2 12
EN-3-903 3 3 24,700 19,800 49,400 42,484 34,827 24,700 * *
EN-4-903 3 4 32,900 26,320 65,800 56,983 46,521 32,900 — —
EN-1-904 4 1 12,400 9,920 24,800 21,477 17,534 12,400 2 12
EN-2-904 4 2 22,000 17,600 44,000 38,104 31,108 22,000 2 12
EN-3-904 4 3 30,600 24,500 61,200 52,632 43,146 30,600 * *
EN-4-904 4 4 40,800 32,640 81,600 70,666 57,691 40,800 — —
EN-1-906 6 1 18,600 14,880 37,200 32,215 26,300 18,600 2 15
EN-2-906 6 2 33,000 26,400 66,000 57,156 46,662 33,000 3 15
EN-3-906 6 3 45,900 36,700 91,800 78,948 64,719 45,900 * *
EN-4-906 6 4 61,200 48,960 122,400 105,998 86,537 61,200 — —
EN-1-908 8 1 21,200 16,960 42,400 36,718 29,977 21,200 3 18
EN-2-908 8 2 42,300 33,840 84,600 73,264 59,812 42,300 4 18
EN-3-908 8 3 61,400 49,100 122,800 105,608 86,574 61,400 * *
EN-4-908 8 4 81,920 65,536 163,840 140,902 115,507 81,920 — —
EN-1-910 10 1 26,500 21,200 53,000 45,580 37,471 26,500 3 1/2 18
EN-2-910 10 2 52,900 42,320 105,800 91,623 74,801 52,900 5 18
EN-3-910 10 3 72,000 57,600 144,000 123,840 101,520 72,000 * *
EN-4-910 10 4 96,000 76,800 192,000 165,120 135,360 96,000 — —
EN-1-912 12 1 31,800 25,440 63,600 55,078 44,965 31,800 4 18
EN-2-912 12 2 63,500 50,800 127,000 109,982 89,789 63,500 6 18
EN-3-912 12 3 80,600 64,500 161,200 138,632 113,646 80,600 * *
EN-4-912 12 4 107,520 86,016 215,040 184,934 151,603 107,520 — —
Basket Hitch Taper
See page 16 to see Type 5 light-duty slings.Warning: Horizontal sling angles less than 30° shall not be used.
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 15
SYNTHETIC Bridle
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 16
SYNTHETIC WEB SLINGS
TCS TTS *Steel hardware not available on 1 inch
**1 Ply with steel hardware available in Type 1-TCS only
(3 & 4 Ply also available)
how to inspect web slings.All of our synthetic web products are designed for long life under punishing conditions, but they will eventually wear out after extended use. The key is knowing when to replace them, and that’s why it’s very important to inspect your slings on a regular basis.
We’ve developed an inspection program based on the procedure outlined in ANSI B30.9 that will make the most of your investment. It’s based on four sound beliefs:
• The importance of following regular and uniform inspections.• A respect for the capabilities and limitations of synthetic web
slings.• The need to keep complete, permanent records.• Perhaps most importantly, a lot of common sense.
how often to inspect slingsThe frequency of inspection depends on three important factors:
1. Slingusage–themoreyouuseasling,themoreyouneedtoinspectit.
2. Theworkingenvironment–theharshertheconditions,themoreoftenyouneedtoinspect.
3. Slingservicelife–basedonyourexperienceinusingslings.
It’s a good idea for the person handling the slings to visually inspect all slings before each lift. Additional inspections should be performed at least annually by a qualified designated person and permanent records kept.
OSHA specifies, “Each day before being used, the sling and all fastenings and attachments shall be inspected for damage or defects by a competent person designated by the employer. Additional inspections shall be performed during sling use, where service conditions warrant.” In other words, you should visually inspect your sling before each lift.
when to replace slingsRemove all slings, including Flexi-Grip® round slings, from service if you see damage such as the following, and return to service only when approved by a designated person. These are removal criteria established by ANSI B30.9:
1. Acidorcausticburns.2. Meltingorcharringofanypartofthesling.3. Holes,tears,cutsorsnags.4. Brokenorwornstitchinginload-bearingsplices.5. Excessiveabrasivewear.6. Knotsinanypartofthesling.7. Excessivepittingorcorrosion,orcracked,distortedor
brokenfittings.8. Othervisibledamagethatcausesdoubtastothestrengthof
thesling.9. Missingorillegibleslingidentification.
In addition, we recommend three other important reasons to remove slings from service:
1. AnytimeyouseeourRed-Guard®warningyarns.
2. Distortionofthesling.
3. Anytimeaslingisloadedbeyonditsratedcapacityforwhateverreason.
While most of these standards are very specific regarding reasons for removal, others require your good judgment. The critical areas to watch are wear to the sling body, the selvage edge of webbing and the condition of the sling eyes.
Repair guidelinesIt’s never enough to give slings temporary repairs. Always follow these guidelines:
1. Damagedslingsshouldberepairedonlybyaslingmanufacturer.Ifthatisn’tpossible,therepairmanshouldcertifyinwritingthesling’sratedcapacity.
2. Slingsrepairedbyamanufacturermustbeproof-testedtotwicethedesignatedratedcapacityonthetagbeforereturningittoservice—andbackitupwithacertificateoftheproof-testing.
3. Inspectionrecordsforindividualslingsthathavebeenrepairedshouldbeupdatedwithalltherelevantinformationsuchasthecircumstancesinvolvedandproof-testing.
our synthetic web products measure up.Our synthetic web products don’t merely meet our own strict standards for workmanship and performance. They also meet or exceed these military and federal specifications:
1. ANSI Standard Z1.8 – specifications of general requirements for a quality program.
2. MIL-Standard-105 – sampling procedures and tables for inspection by attributes.
3. MIL-W-4088F – military specification for textile webbing —woven nylon.
4. MIL-W-23223A – military specification for slotted nylon webbing.
5. Fed. Spec. VT-285-E – federal specification for polyester thread.
6. Fed. Spec. VT-295-E – federal specification for nylon thread.
In addition, all work conforms to standards established by the following national safety institutions and their respective regulations:
• American National Standards Institute (ANSI) B30.9 Safety Standards for Cranes, Derricks, Hoists, Hooks, Jacks and Slings.
• Occupational Safety and Health Administration (OSHA) 1910.184 Standards for Slings.
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 17
Synthetic Web Handbook
Identifying wear and abuse.These are some of the most common types of web sling damage
caused by abuse and misuse. When you see any of these
problems during your regular inspection, stop. Replace the sling
immediately because the damage is done. Never attempt to
mend the sling yourself and, more so, never attempt to lift with
these slings.
Whether a sling is damaged from improper use or normal wear,
the same rule applies in all cases: Always cut the sling eyes and
discard the sling right away when you see damage. Only with
properly working slings can you take a load off your mind.
Tensile break
The distinguishing sign of a tensile break is a frayed appearance
close to the point of failure or damage. This usually happens when
a sling is loaded beyond its existing strength. The photo shows an
example of a sling pulled to destruction on a testing machine. You
can avoid tensile breaks by never overloading your sling.
Cut
You can easily see a cut in your sling when you see a clean break
in the webbing structure or fibers. This usually results when a sling
contacts a sharp object or unprotected edge of a load. This can
happen anywhere on the sling body or eyes. Many slings feature
Red-Guard warning yarns to alert you of serious cuts. One way
you can avoid cuts from contacting sharp corners is to use wear
pads on the sling to protect the fabric. See page 7 for details.
Cut and tensile damage
A good example is the photo shown here. It shows what can
happen when you use a sling that’s already been cut by a sharp
object along one edge of the sling body. The cut dramatically
reduces lifting capacity, and continued use will ultimately lead to
sling failure, usually at a load far below the sling’s rated capacity.
The solution, obviously, is to never use a sling after it’s been cut.
Abrasion damage
Anytime you see frayed fibers on the surface exposing the
“picks,” or cross fibers, of the webbing that hold the load-
bearing (lengthwise) fibers in place, it’s abrasion damage.
The most common abrasion damage occurs either when the
sling slips while in contact with a load during a lift or when
the sling is pulled from under a load. When you see the Red-
Guard warning yarns exposed, it’s your signal that serious
damage — and loss of lifting capacity — has occurred. We
recommend that slings with any damage to load-bearing fibers
be discarded. Wear pads are one way to avoid this damage.
Acid damage
It’s true nylon and polyester webbing are stable when exposed
to many common chemicals, but they should never be exposed
to any strong acids or corrosive liquids whenever possible. The
same is true for metal fittings on slings.
Example 1 (top photo). This is what happens when sulfuric
acid, like car battery acid, is heated to the boiling point and
dropped on nylon webbing. The charring on the surface fibers
deteriorates the sling and will continue to get worse, severely
affecting the webbing strength.
Example 2 (bottom photo). This is what happens when nylon
webbing is immersed in sulfuric acid at room temperature
for three weeks, resulting in major damage. Note the fibers
are softened and swollen, and the entire fabric is grossly
distorted, virtually destroying the webbing. You can help
prevent this damage by never storing slings in areas where
they may be exposed to acid or acid fumes, which are as
destructive as liquid.
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 18
ALLOY CHAIN SLINGS - GRADE 80/1001. Determine the weight and configuration of the load(s) to be lifted.2. Determine the type of chain sling required according to weight and configuration.3. Determine the size of the body chain according to the working load limits* *. Be sure to take into consideration the effect
of the required angle.4. Determine the reach required to give the desired angle. The reach is measured from the upper bearing surface of the
master link to the bearing surface of the lower attachment.
90º
Chain Size 2= d d LJ a 8 CJ [] LJLJJ
(mm) Single Leg Double Leg Triple and Quad Leg (in.)
60º 45º 30º 60º 45º 30º
The life and strength of Grade 80/100 chain slings depend on proper inspection, maintenance and use. For additional information, refer to ANSI B30.9 and OSHA 1910.184.CAREChain requires careful storage and regular maintenance.
• Store chains on an A frame in a clean, dry place.• To avoid corrosion, oil chains before prolonged storage.• Do not heat Alloy lifting chains; this will alter its thermal treatment.• Do not plate or change surface finish of chain. Contact us for special requirements.
USETo protect both operators and materials, observe these precautions when using chain slings:
• Before use, inspect chain and attachments following the instructions under “INSPECTION” below.• Do not exceed working load limit. Any of the factors listed here can reduce the load the chain will hold:
○ Acceleration in rate of load application – can produce dangerous overloading.○ Variation in the angle of the load to the sling – as the angle decreases, the working load of the sling will increase.○ Twisting, knotting or kinking – subjects links to unusual loading, decreasing the working load of the sling.○ Use for purposes other than those for which slings are intended – can reduce the working load of the sling.○ Free chain of all twists, knots and kinks.○ Center load in hook(s); hook latches must not support load.○ Avoid sudden jerks when lifting and lowering.○ Balance all loads; avoid tipping of loads.○ Use pads around sharp corners.○ Do not drop load on chains.○ Match the size and working load limit of attachments such as hooks or rings to the size and working load limit of the chain.○ For overhead lifting, use only alloy chain and attachments (Grade 80/100).
INSPECTIONIt is important both to inspect chain slings regularly and to keep a record of all chain inspections. Follow this guide for such an inspection system.
• Before inspecting, clean chains with a non-acid/non-caustic solvent so that marks, nicks, wear and other defects are visible.• Inspect each link for these conditions to remove from service:
○ Twists or bends.○ Nicks or gouges.○ Excessive wear at bearing points.○ Stretch.○ Distorted or damaged master links, coupling links or attachments especially spread in throat opening of hooks.
• Mark plainly with paint each link or attachment showing any of the conditions listed here to indicate rejection; remove from service until properly repaired.
* * Working load limit: The working load limit is the maximum load in pounds which should never be applied to chain, even when chain is new, and when load is uniformly applied in di-rect tension to a straight length of chain. * *
* 3/4” and above Grade 80 WARNING - DO NOT EXCEED WORKING LOAD LIMIT
USE ONLY ALLOY CHAIN FOR OVERHEAD LIFTING
GRADE 80/100 ALLOY CHAIN SLINGS WORKING LOAD LIMITS*
–
1/4 (9/32)
5/16
3/8
1/2
5/8
3/4
7/8
1
1 1/4
6
7
8
10
13
16
20
22
26
32
3,200
4,300
5,700
8,800
15,000
22,600
28,300
34,200
47,700
72,300
5,500
7,400
9,900
15,200
26,000
39,100
49,000
59,200
82,600
125,200
4,500
6,100
8,100
12,400
21,200
32,000
40,000
48,400
67,400
102,200
3,200
4,300
5,700
8,800
15,000
22,600
28,300
34,200
47,700
72,300
8,300
11,200
14,800
22,900
39,000
58,700
73,500
88,900
123,900
187,800
6,800
9,100
12,100
18,700
31,800
47,900
60,000
72,500
101,200
153,400
4,800
6,400
8,500
13,200
22,500
33,900
42,400
51,300
71,500
108,400
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 19
ALLOY CHAIN SLINGS - GRADE 80/100Grade 80/100 Alloy Chain Slings are designated throughout the industry by the following symbols:First Symbol (Basic type)S Single Chain Sling with master & hook or hook each endC Single Choker Chain Sling with masterlink each endD Double Chain Sling with standard masterlink and hooksT Triple Chain Sling with standard masterlink and hooksQ Quadruple Chain Sling with standard masterlink and hooksSecond Symbol (Type of masterlink or end link)O Standard Oblong masterlink – recommended for all typesP Pear shaped masterlink – available on requestThird Symbol (Type of Hooks)S Sling HookG Grab HookF Foundry Hook
Alloy Slings can be assem-bled with shortening hooks to adjust leg lengths.
TYPE CO TYPE SOS TYPE SOGTYPE DOS
TYPE TOS
TYPE DOG
45˚
TYPE QOG
30˚
60˚
90˚
45˚
30˚
60˚
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 20
TradeDiameter
(in)
NACM Working Load Limits (lbs.)
Grade 30
Grade 43
Grade 70
Grade 80
Grade 100
1/8 400 — — — —
3/16 800 — — 2,100 2,700
7/32 — — — 2,100 2,700
1/4 1,300 2,600 3,150 — —
9/32 — — — 3,500 4,300
5/16 1,900 3,900 4,700 4,500 5,700
3/8 2,650 5,400 6,600 7,100 8,800
7/16 3,700 7,200 8,750 — —
1/2 4,500 9,200 11,300 12,000 15,000
5/8 6,900 13,000 15,800 18,100 22,600
3/4 10,600 20,200 24,700 28,300 35,300
7/8 12,800 24,500 — 34,200 42,700
1 17,900 — — 47,700 —
1-1/4 — — — 72,300 —
Only Grade 80 or Grade 100 should be used for overhead lifting.
CHAIN WORKING LOAD LIMITS UNDER EXTREME TEMPERATURE CONDITIONSWhen chain is subject to extreme temperatures, working load limits should be reduced as indicated in the chart below.
Temperature Grade 80
(ºF) (ºC)Reduction of
Working Load Limit WHILE AT Temperature
Reduction of Working Load Limit AFTER EXPOSURE
to Temperature
Below 400 Below 204 NONE NONE
400 204 10% NONE
500 260 15% NONE
600 316 20% 5%
700 371 30% 10%
800 427 40% 15%
900 482 50% 20%
1,000 538 60% 25%
Over 1,000 Over 538 OSHA 1910.184 requires all slings heated to temperatures over 1,000º F to be removed from service
Temperature Grade 100
Below 400 Below 204 NONE NONE
400 204 15% NONE
500 260 25% 5%
600 316 30% 15%
700 371 40% 20%
800 427 50% 25%
900 482 60% 30%
1,000 538 70% 35%
Over 1,000 Over 538 OSHA 1910.184 requires all slings heated to temperatures over 1,000º F to be removed from service
GENERAL CHAIN WORKING LOAD LIMITSBelow is a chart of the working load limits of Grade 30 through Grade 100 chain.
CHAIN SELECTION & WORKING LOAD LIMITSUnderstanding the working load limit of chain and chain slings is critical when choosing the best option for your application. This section details the working load limits of chain and chain slings, as well as explains how the working load limit is affected by temperature and lifting angles.
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 21
Figure 1: Pattern of tensile and compression stress
shown by a link under load.
CHAIN & SLING GENERAL INSPECTION
It is important to inspect chain and chain slings regularly and to keep a record of all chain inspections. Follow the steps below when developing your inspection requirements and tracking system.
Before inspection, clean the chain so that marks, nicks, wear and other defects can be seen. Use a non-acid/ non-caustic solvent. Each chain link and sling component should be individually inspected for the conditions noted below.
1. Excessive wear and corrosion at chain and attachmentbearing points. Refer to page 16, “Wear Allowance chartfor Alloy grade 80 and 100 chain”. The table should alsobe used as a guide when inspecting coupling links.
2. Nicks or gouges
3. Stretch or link elongation
4. Twists or bends
5. Distorted or damaged links, master links, coupling linksor attachments, especially spread in throat openingof hooks. (Refer to other sections in this catalog forinspection guidelines regarding distortion and wearof hooks, master links and Hammerloks® .)
When inspecting chain slings specifically, it’s important to note that damage is most likely to occur in the lower portion of a sling. Therefore, particular attention should be given to those sections.
Each link or component having any condition listed above is to be marked with paint to clearly indicate rejection. Since any of the above noted conditions can affect chain performance and/or reduce the chain strength, chains and chain slings containing any of the conditions should be removed from service. A qualified person should examine the chain, assess the damage, and make a decision on whether or not repair is necessary before returning it to service. Extensively damaged chain should be scrapped.
Because of its use in critical lifting applications, repair of alloy chain should only be done by an authorized chain sling repair station. Nicks and gouges can be removed from the chain by a qualified person as instructed in the “Nicks and Gouges” section on this page.
CHAIN & SLING IN-DEPTH INSPECTION
Since Grade 80 and 100 chains are used for overhead lifting, and used frequently as part of a sling component, a more detailed and in-depth inspection in necessary.
TWISTING & BENDINGTwisted and bent links are relatively easy to recognize and affect chain performance significantly. Twisting and bending of links results from use of slings around sharp corners without padding, use of links with grab hooks under certain adverse conditions, and from loading of chain that is twisted, knotted, or kinked. (Refer to Hook Section for a more information on grab hooks.)
Consider that chain is evaluated by applying loads in a pure tensile link end-to-link-end fashion and rated accordingly. Bent or twisted links alter this normal loading pattern significantly and thus alter inner link stresses accordingly. For this reason all chain containing twisted or bent links must be removed from service.
NICKS & GOUGESThe outsides of links are exposed to contact with foreign objects that can cause damage. Nicks and gouges frequently occur on the sides. Therefore, they usually are located on surfaces under compressive stress and their potentially harmful effects are reduced.
The unique geometry of a chain link tends to protect tensile stress areas against damage from external causes. Figure 1 shows that these tensile stress areas are on the outside of the link body at the link ends where they are shielded against most damage by the presence of interconnected links. Tensile stress areas are located also on the insides of the straight barrels, but these surfaces are similarly sheltered by their location. However, gouges cause localized increases in the link stress. They can be harmful if they are located in areas of tensile stress and particularly so if they are perpendicular to the direction of stress. Refer to Figure 1.
Figure 2 shows nicks of varying degrees of severity. Reading clockwise, at three o’clock there is a longitudinal mark in a compressive stress area. Since it is longitudinal and located in a compressive stress area, its effect is mitigated, but good workmanship calls for it to be ground out. At about five o’clock there is a deep
Figure 2 : Location of nicks, gouges, and notches
will dictate their severity.
CHAIN & SLING INSPECTION GUIDETo ensure long life and continued strength of chain, it is important that the product is properly used, inspected and maintained. This section provides details on chain and chain sling inspection methods as well as the proper use and care of chain or slings. Following these guidelines will ensure safe and long use of products.
In addition to what is provided in this section, ASME and OSHA have specific regulations related to chain and chain sling use. For detailed information, refer to ASME B30.9 and OSHA 1910.184
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 22
transverse nick in an area of high shear stress. A similar nick is located at six o’clock in the zone of maximum tensile stress. Both of these can create a potentially dangerous escalation of the local stress and must be filed out. A nick that was located at eight o’clock has been filed out properly. Although the final cross section is smaller, the link is stronger because the stress riser effect of the notch has been removed. The remaining cross section can now be evaluated for acceptability by measuring it and applying the criterion for worn chain. See “Wear Allowances Table” below.
WEAR & CORROSIONCorrosion results in a reduction of link cross-section and can be detected using the same criteria as that for wear. Wear can occur in any portion of a link that is subject to rubbing contact with another surface. The natural shape of chain confines wear, for practical considerations, to only 2 areas. These are, in order of importance, (a) at the bearing points of interlink contact, and (b) on the out-sides of the straight side barrels which may be abraded from dragging chains along hard surfaces or from under loads. Figure 3 illustrates the condition of interlink wear and shows how to inspect for it. Notice how easily such wear can be detected by collapsing the chain to separate each link from its neighbors.
When wear is observed, the next step is to determine how severe the damage is and if the chain can still be safely used. To determine this, make a caliper measurement across the worn section of chain and compare it to the minimum allowable dimension for that chain. See the chart below for minimum section dimensions or wear allowances for Grade 80 and 100 Chain.
CHAIN INSPECTIONThe strength of welded link chain is relatively unaffected by a mod-erate degree of wear. The reason for this will be understood better if we take a brief look at the pattern of stress distribution in a chain link supporting an axial tension load.
Figure 4 shows in exaggerated manner the change in shape that takes place under such loading conditions. Note that the ends move farther apart while the side barrels move closer together. If the link were in a neutral stress condition to start with, the loaded link shown in broken outline would contain stresses of compression and tension. This is clearly illustrated in Figure 5 showing an inflated inner tube which is sustaining a load in the manner of a chain link. The wrinkled sections clearly indicate the areas of compression.
Figure 1 on the previous page shows the location of these stresses in a chain link. Tensile stresses are represented by arrows pointing away from each other, and compression stresses are depicted by arrows pointing toward each other. Notice that the bending, which occurs when link elongation takes place, induces compressive stresses at the interlink bearing surfaces and on the outside surfaces of the side barrels. Therefore, we see that these surfaces, which are the potential wear areas, play a lesser role in supporting the tensile load on the chain. For that reason, some amount of interlink or side barrel wear can occur before chain tensile strength decreases significantly.
Corrosion will generally be exhibited in the form of rusting and pitting. Rusted chain with a smooth unpitted surface finish can remain in service provided that the minimal section dimensions or wear allowances published by the chain manufacturer are complied with. However, visually discernible pitting should be carefully inspected using the technique outlined for “Nicks and Gouges”, paying particular attention to areas of tensile stress.
Alloy steel sling chain typically exhibits well over 20% elongation before rupture. The combination of elongation and high strength provides energy absorption capacity. However, high elonga-tion or stretch, by itself, is not an adequate indicator of shock resistance or general chain quality and should not be relied upon by riggers to provide advance warning of serious overloading and impending failure. Overloading must be prevented before it happens by selection of the proper type and size of slings.
STRETCH & CHAIN ELONGATION A visual link-by-link inspection is the best way to detect dangerously stretched links. The smallest sign of binding or loss of clearance at the juncture points of a link indicates a collapse in the links’ sides due to stretch. Any amount of stretch indicates overloading, and the chain should be removed from service.
Note that a significant degree of stretch in a few individual links may be hidden by the apparent acceptable length gage of the overall chain. This highlights the importance of link-by-link inspection.
There is no short-cut method that will disclose all types of chain damage. Safety can only be achieved through proper inspection procedures. There is no adequate substitute for careful link-by-link scrutiny.
Figure 3 : Inspection for interlink wear can be detected easily
by collapsing the chain.
WEAR ALLOWANCES OF ALLOY GRADE 80 & 100 CHAIN
Chain Size Minimum Allowable Thickness (T)
(in.) (mm.) (in.) (mm.)
7/32 5.5 0.189 4.8
9/32 7.0 0.239 6.1
3/8 10.0 0.342 8.7
1/2 13.0 0.443 11.3
5/8 16.0 0.546 13.9
3/4 20.0 0.687 17.5
7/8 22.0 0.750 19.1
1 26.0 0.887 22.5
1-1/4 32.0 1.091 27.7
Measure cross section at link ends to determine wear. If chain is worn to less than the minimum allowable thickness, remove from service.
T
Note: For sizes not listed, the Minimum Allowable Thickness can be calculated as 87% of the original material diameter.
Figure 4 : Changes in link shape that take place
under axial tension loading.
Figure 5 : The tube “under load” shows wrinkles in
the areas of compression.
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 23
TIE DOWN EQUIPMENT
1” Utility Straps with “S” Hooks - 650 lbs. Working Load Limit2” Ratchet Straps - 3,333 lbs. Working Load Limit3” Ratchet Straps - 5,000 lbs. Working Load Limit4” Ratchet Straps - 5,000 lbs. Working Load Limit
Same as above for Ratchet Straps
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 24
WIRE ROPE CLIPS
Size(in.)
Product Code
Dimensions (in.) Min No Clips
Torqueft./lb.A B C D E F G H
1/8* M244 1/8-24UNC 23/32 7/16 15/32 13/32 3/8 13/16 15/16 2 4-1/2
3/16 M245 1/4-20UNC 31/32 9/16 19/32 1/2 1/2 15/16 1-5/32 2 7-1/2
1/4 M246 5/16-18UNC 1-1/32 1/2 3/4 31/32 9/16 1-3/16 1-7/16 2 15
5/16 M247 3/8-16UNC 1-3/8 3/4 7/8 23/32 11/16 1-5/16 1-11/16 2 30
3/8 M248 7/16-14UNC 1-1/2 3/4 1 29/32 3/4 1-5/8 1-15/16 2 45
7/16 M249 1/2-13UNC 1-7/8 1 1-3/16 1-1/16 7/8 1-25/32 2-5/16 2 65
1/2 M250 1/2-13UNC 1-7/8 1 1-3/16 1-1/8 7/8 1-29/32 2-5/16 3 65
9/16 M296 9/16-12UNC 2-3/8 1-1/4 1-5/16 1-1/4 15/16 1-31/32 2-1/2 3 95
5/8 M251 9/16-12UNC 2-3/8 1-1/4 1-5/16 1-11/32 15/16 2 2-1/2 3 95
3/4 M252 5/8-11UNC 2-3/4 1-7/16 1-1/2 1-7/16 1-1/16 2-11/32 2-13/16 4 130
7/8 M253 3/4-10UNC 3-1/8 1-5/8 1-3/4 1-19/32 1-1/4 2-7/16 3-5/32 4 225
1 M254 3/4-10UNC 3-1/2 1-13/16 1-7/8 1-25/32 1-1/4 2-5/8 3-5/32 5 225
1-1/8 M255 3/4-10UNC 3-7/8 2 2 1-25/32 1-1/4 2-13/16 3-19/32 6 225
1-1/4 M256 7/8-9UNC 4-1/4 2-1/8 2-5/16 2-3/16 1-7/16 3-1/8 4-1/8 7 360
1-3/8 M257 7/8-9UNC 4-5/8 2-5/16 2-3/8 2-1/4 1-7/16 3-1/8 4-1/4 7 360
1-1/2 M258 7/8-9UNC 4-15/16 2-3/8 2-19/32 2-1/2 1-7/16 3-1/8 4-7/16 8 360
Proper use of Wire Rope Clips1. Refer to the chart above in following these instructions. Turn back specified amount of rope from
thimble or loop. Apply first clip one base width from dead end of rope. Apply U-bolt over dead end of wire rope - live end rests in saddle. Tighten nuts evenly, alternate from one nut to the other until reaching the recommended torque.
2. When two clips are required, apply the second clip as near the thimble or loop as possible. Tighten nuts evenly, alternating until reaching the recommended torque. When more than two clips are required, apply the second clip as near the loop or thimble as possible, turn nuts on second clip firmly, but do not tighten. Proceed to Step 3.
3. When three or more clips are required, space additional clips equally between the first two - take up rope slack - tighten nuts on each U-bolt evenly, alternating from one nut to the other until reaching the recommended torque.
4. Apply an initial load equal to loads expected in use. Inspect for proper orientation and spacing of clips and retighten the nuts to recommended torque.
WARNINGImproper installation and use of
wire rope clips can result in injury. To avoid injury:
Install and use only as instructed herein.
! !
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 25
SCREW PIN ANCHOR SHACKLES
○ Capacities 1/3 thru 55 metric tons ○ Forged - Quenched and Tempered, with alloy pins. ○ Working Load Limit permanently shown on every shackle ○ Hot Dip galvanized or Self Colored. ○ Fatigue rated. ○ Shackles 25t and larger are RFID EQUIPPED. ○ Shackles can be furnished proof tested with certificates to designated standards, such
as ABS, DNV, Lloyds, or other certification. Charges for proof testing and certification available when requested at the time of order.
○ Shackles are Quenched and Tempered and can meet DNV impact requirements of 42 joules at -20 C.
○ Crosby products meet or exceed all requirements of ASME B30.26 including identification, ductility, design factor, proof load and temperature requirements. Importantly, Crosby products meet other critical performance requirements including fatigue life, impact properties and material traceability, not addressed by ASME B30.26.
○ Look for the Red Pin® ... the mark of genuine Crosby quality. ○ Type Approval and certification in accordance with ABS 2006 Steel Vessel Rules 1-1-
17.7, and ABS Guide for Certification of Cranes.
Nomi-nal Size (in.)
Work-ing
Load Limit (t*)
Stock No. Weight Each (lbs.)
Dimensions(in.)
Tolerance+ / -
G-209 S-209 A B C D E F G H L M P C A
3/16 1/3 1018357 - .06 .38 .25 .88 .19 .60 .56 .98 1.47 .16 1.14 .19 .06 .061/4 1/2 1018375 1018384 .10 .47 .31 1.13 .25 .78 .61 1.28 1.84 .19 1.43 .25 .06 .06
5/16 3/4 1018393 1018400 .19 .53 .38 1.22 .31 .84 .75 1.47 2.09 .22 1.71 .31 .06 .063/8 1 1018419 1018428 .31 .66 .44 1.44 .38 1.03 .91 1.78 2.49 .25 2.02 .38 .13 .06
7/16 1-1/2 1018437 1018446 .38 .75 .50 1.69 .44 1.16 1.06 2.03 2.91 .31 2.37 .44 .13 .061/2 2 1018455 1018464 .72 .81 .63 1.88 .50 1.31 1.19 2.31 3.28 .38 2.69 .50 .13 .065/8 3-1/4 1018473 1018482 1.37 1.06 .75 2.38 .63 1.69 1.50 2.94 4.19 .44 3.34 .69 .13 .063/4 4-3/4 1018491 1018507 2.35 1.25 .88 2.81 .75 2.00 1.81 3.50 4.97 .50 3.97 .81 .25 .067/8 6-1/2 1018516 1018525 3.62 1.44 1.00 3.31 .88 2.28 2.09 4.03 5.83 .50 4.50 .97 .25 .061 8-1/2 1018534 1018543 5.03 1.69 1.13 3.75 1.00 2.69 2.38 4.69 6.56 .56 5.13 1.06 .25 .06
1-1/8 9-1/2 1018552 1018561 7.41 1.81 1.25 4.25 1.16 2.91 2.69 5.16 7.47 .63 5.71 1.25 .25 .061-1/4 12 1018570 1018589 9.50 2.03 1.38 4.69 1.29 3.25 3.00 5.75 8.25 .69 6.25 1.38 .25 .061-3/8 13-1/2 1018598 1018605 13.53 2.25 1.50 5.25 1.42 3.63 3.31 6.38 9.16 .75 6.83 1.50 .25 .131-1/2 17 1018614 1018623 17.20 2.38 1.63 5.75 1.54 3.88 3.63 6.88 10.00 .81 7.33 1.62 .25 .131-3/4 25 1018632 1018641 27.78 2.88 2.00 7.00 1.84 5.00 4.19 8.86 12.34 1.00 9.06 2.25 .25 .13
2 35 1018650 1018669 45.00 3.25 2.25 7.75 2.08 5.75 4.81 9.97 13.68 1.22 10.35 2.40 .25 .132-1/2 55 1018678 1018687 85.75 4.13 2.75 10.50 2.71 7.25 5.69 12.87 17.84 1.38 13.00 3.13 .25 .25
*NOTE: Maximum Proof Load is 2.0 times the Working Load Limit. Minimum Ultimate Strength is 6 times the Working Load Limit.
G-209 S-209Screw pin anchor shackles meet the performance requirements of Federal Specification RR-C-271D Type IVA, Grade A, Class 2, except for those provisions required of the contractor
G-209 S-209Screw pin anchor shackles meet the performance requirements of Federal Specification RR-C-271D Type IVA, Grade A, Class 2, except for those provisions required of the contractor
G-213 S-213Round pin anchor shackles meet the performance requirements of Federal Specification RR-C-271D Type IVA, Grade A, Class 1, except for those provisions required of the contractor.
G-2130 S-2130Bolt-type anchor shackles meet the performance requirements of Federal Specification RR-C-271D Type IVA, Grade A, Grade A, Class 3 except for those provisions required of the contractor.
G-210 S-210Screw pin chain shackles meet the performance requirements of Federal Specification RR-C-271D Type IVB, Grade A, Class 2, except for those provisions required of the contractor.
G-215 S-215Round pin chain shackles meet the performance requirements of Federal Specification RR-C-271D Type IVB, Grade A, Class 1, except for those provisions required of the contractor.
G-2150 S-2150Bolt type chain shackles meet the performance requirements of Federal Specification RR-C-271D Type IVB, Grade A, Class 3, except for those provisions required of the contractor.
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 26
CraneServiceandInspection
! Inspections(Annual,Quarterly,andMonthly)perOSHA1910.179,1926.550! ServiceandMaintenance! HoistRebuilds! NewSystemsandInstallations! LiftingDevices! LoadTesting&CertifiedWeightRental
! Breakdown24/7Service
PRODUCTS
! Replacementparts! SlingProducts! Wirelessremotecontrols! RiggingRentals(manualchainfalls,leverhoists,dyno’s,spreaderbars)
! FallArrestSystems
*NOTE: Maximum Proof Load is 2.0 times the Working Load Limit. Minimum Ultimate Strength is 6 times the Working Load Limit.
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 27
HOIST & CRANE SYSTEMSManual & Electric
Hoists
Trolleys & Beam Clamps
Bridge Crane Systems
Air Hoists
Some items available for rental.
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 28
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 29
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 29
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 30
SAFETY EQUIPMENT
Universal2-D Ring3-D RingIronworker
Rope LanyardsWeb LanyardsShock AbsorbersTie Back Lanyards100% Tie-off Lanyards
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 31
HARDWARE - TOOLS - FITTINGS
Hook & Hook
HOIST RINGS
CAROLINA’S RIGGING & CRANE CHARLESTON’S RIGGING & MARINE HARDWARE CAROLINA’S RIGGING & CRANE Columbia, SC (800) 745-6627 Charleston, SC (800) 742-6703 Augusta, GA (866) 385-9346
PAGE 32
WE ARE PROUD DISTRIBUTORS FOR:J. D. NeuhausHilman Rollers
The Crosby GroupHarrington HoistSamson Rope
Fall Safe ProtectionDBI/Protecta Fall Protection
Rud ChainGunnebo Johnson
Johnson Architectural HardwareNabrico Deck Hardware
Dica Outrigger PadsWyeth-Scott Power Pullers
Virginia FastenersMiller Construction Products
Peck & Hale
Morse-StarrettSeattle Glove
TandemlocTaylor Chain
Muncy/Upson WaltonLaclede Chain
JetKWS
Ohio Hoist & PullerMaritime Cordage
Safety ClampsNorco
LetellierLittle Mule
My-TeBison Coolers
JOHNSON ARCHITECTURAL HARDWARE
Newco ManufacturingCM Hoists & Forgings
Chicago Hardware Caldwell Group
Thern Winches/TuggersYale Cordage
Klein ToolsBridon American Wire Rope
Actek Hoist RingsRenfroe Plate Clamps
Block Division, Inc.Zinco Hydraulics
PewagSpanset
Tuffy SlingsSpanco
Skookum
CRANE INSPECTIONOSHA Certified Crane and Hoist Inspection • Certified Load Weight Testing
Bridge Cranes • Monorails • Crawler • Hydraulic Cranes • Jib Cranes • OSHA Training
HOIST REPAIRCertified Chain • Lever • Electric Hoist Repair and Testing PER ANSI B30. Specifications
Manual • Electric • Air
RENTALSHoist/Manual & Electric • Air Tuggers • Winches
Blocks up to 100 Ton • Load Cells • Heavy Haul Skates • Spreader Bars • Jacks
WIRE ROPEAll Sizes 1/16” to 2” Diameter, 6 x 19 • 6 x 37 • 19x19 • Constructex •
IWRC and Fibercore • Galvanized and Stainless Steel Cable
SLINGS & TIE DOWNSWire Rope Chokers and Bridles • Boom Pendants • Synthetic Web Slings and Bridles
Alloy Chain Slings and Bridles • Polyester Truck Tie Downs • Ratchet Assemblies
CHAING8 Alloy • G7 Transport • G4 Hi-Test • G3 Proof Coil • Load Binders
Binder Chains• Galvanized• Long Link
ROPE/CORDAGENylon • Manila • Combo • Poly • Polyester & Nylon Double Braid
Splicing Capabilities, 3 Strand and Double Braid • 6/8/12 Strand Ropes
OIL SORBENTSPads • Rolls • Socks • Particulate Booms • Skirted Booms • Turbidity Curtains• Granular Bag
HOIST/MONORAIL/BRIDGE CRANESManual • Electric • Air Hoist • Chain Falls • Lever Hoist •Trolleys • Bridge Cranes & Monorails • Jib Cranes
RIGGING HARDWAREShackles • Turnbuckles • Clips • Hooks • Blocks • Snatch Blocks • Swivels • Sockets • Overhaul Balls
Lifting Clamps • Trolleys • Chain Hoists • Lever Hoists • Winches • Ratchet Pullers • Lifting Eyes
MARINE HARDWARE AND SUPPLIESGalvanized Bolts • Nuts • Washers • Tie Back Rods • All Thread Rods • Nails • Staples • Eye Bolts and Lags Pile Guides • Cleats • Fendering • Filtercloth • IPE Decking • S/S Screws & Guns • Barge Lights & Batteries
SAFETY AND FALL PROTECTION100% Tie Off Lanyards • Retractable Lanyards • Body Harnesses • Rope Grabs
Life Lines • Anchors • Fall Protection • Horizontal & Vertical Lifeline Systems
Rev.8/2016