OIL & GAS INDUSTRYWALL COLMONOY
Wall Colmonoy is a global materials engineering group of companies
engaged in the manufacturing of surfacing and brazing products,
castings, and engineered components across aerospace, automotive,
oil & gas, mining, energy and other industrial sectors.
Known for our unique proven way of creating superior performing alloys that
enhance engineered components, we pride ourselves on long-term strategic
customer collaboration that produces value-added ideas and
creative solutions.
Combining over 75 years of engineering technology with a progressive,
visionary outlook, Wall Colmonoy offers customers trusted, customised
expertise that results in smart innovation and shared growth.
PROGRESSIVE COLLABORATION FOR SUPERIOR PERFORMANCE. WORLDWIDE.
Wall Colmonoy’s hard-surfacing
products and engineered components are
used extensively throughout the Oil & Gas
Industry.
From exploration and drilling to pumping
and refining, our range of Surfacing Alloys
have successfully extended the useful life
of the industry’s equipment and machinery
from harmful corrosion and wear.
Our specially formulated alloys,
COLMONOY® (nickel-based) and
WALLEX® (cobalt-based), have outstanding
metallurgical and physical properties making
them ideally suited to solving wear problems
in the Oil & Gas Industry.
The alloys are applied in a wide range of
proven surfacing and thermal spraying
techniques, including Laser Cladding, PTA,
HVOF, and Spray & Powder Welding.
Wall Colmonoy also manufactures precisely
cast and machined components. Made
from our superior performing Colmonoy®
or Wallex® Surfacing Alloys or customer-
specific alloys using Investment, Centrifugal,
Sand Cast or Vacuum Cast Processes.
Engineered components are designed to
optimise wear, corrosion, abrasion and heat
resistant properties.
For more than 75 years Wall Colmonoy has
served the Oil & Gas Industry with high-
quality, hard-surfacing alloys, precisely
engineered components, expert application
consultation and field assistance.
Our Manufacturing facilities in North
America and Europe are equipped with
modern laboratory and testing facilities.
Our products are manufactured to quality
standards set by international and national
industrial associations. We maintain quality
assurance to ISO 9001.
WALL COLMONOY OIL & GAS INDUSTRY
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What makes our products different?
Our range of Colmonoy® and Wallex®
Surfacing Alloys are an excellent defense
against wear mechanisms such as abrasion,
erosion, corrosion and high-temperatures
encountered in service. As the world’s
leading manufacturer of nickel-based hard-
surfacing alloys, Wall Colmonoy coatings
have been extending the service life of
industrial parts for over 75 years.
What is hard-surfacing?
Hard-surfacing is the application of a layer
of wear-resistant alloy to a part for the
purpose of extending the machine’s service
life. This can be performed on worn parts to
replace metal lost through wear and on new
parts when wear is anticipated.
What is the benefit?
Parts protected with our Surfacing
Alloys – Colmonoy® or Wallex® - last
significantly longer than unprotected parts.
This means:
• fewer replacement parts needed
• less labor required to install them
• minimise down-time
In fabricating new parts, inexpensive base
metals may be used because our Surfacing
Alloy coatings withstand wear. Our
Surfacing Alloys are available as powder,
rods, wires and castings to suit different
application methods.
MAXIMISING PERFORMANCE & EXTENDING THE USEFUL LIFE OF ENGINEERED COMPONENTS
TYPES OF SURFACING POWDER PRODUCTS:
Atomised – nickel and cobalt alloys containing combinations of tungsten, chromium, chromium carbide or tungsten carbide for specific applications. Crushed – premium alloy form with high surface area and dense coatings for superior wear-resistance.
Composite – alloy particles of tungsten carbide in nickel or cobalt matrix; designed to resist sliding abrasion and abrasive wear.
SURFACING ALLOYS FOR OIL & GAS
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An Integrated Approach - Casting, Heat Treating and Machining all from One Source
Wall Colmonoy’s precisely engineered
components are used throughout Oil & Gas
industry. The components are made from
wear, heat, and corrosion resistant Colmonoy®,
Wallex®, or customer-specific alloys designed
to optimise wear, corrosion and heat resistant
properties.
Components are either as cast or fully
machined from air or vacuum melted castings
made by investment, sand, or centrifugal
techniques.
l
All components can be offered in the as cast,
Machining facilities include EDM, wire cutting,
CNC grinding, honing, milling, lapping and
turning.
Our technical team has amassed a
wealth of skill, knowledge and know-how
turning designers’ and engineers’ rigorous
requirements into economically viable
solutions. Our expert engineers select the
optimum alloy and process to suit specific
needs.
Components for Oil & Gas Industry
are produced using Wallex® alloy and
manufactured according to API standards
include:
• Ball Valves
• Clamp Plates and Pads
• Plugs and Flow Control Cages
• Rotors
• Stem Guides
• Valve Seats
Wall Colmonoy’s on-site laboratory and test
facilities are fully approved and can certify
goods to customers specific requirements.
Wall Colmonoy has an ongoing
commitment to high quality
manufacture and offer
certification to nationally
and internationally
recognised standards.
Each engineered
component goes
through a reassuringly
stringent inspection
process before final
delivery.
DESIGNED TO OPTIMISE WEAR, CORROSION, ABRASION, AND HEAT RESISTANT PROPERTIES
CASTING METHODS:
Investment – offers design flexibility, close dimensional control, consistency & repeatability, cost savings.
Centrifugal Spun – is used to produce high integrity densely structured, cylindrical components like bushes and sleeves.
Sand – is typically used to produce larger components in smaller batches. It is capable of making mostly complex shapes using relatively inexpensive wood or resin patterns.
Vacuum Casting – is used for alloys where tight compositional control and low inclusion counts are required - difficult to achieve when using conventional air melting and casting.
PRECISION COMPONENTS FOR OIL & GAS
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Extending the useful life of the industry’s equipment, gears, and machinery from harmful corrosion and wear
DRILLING
Blowout Preventors, Operating Pistons - Colmonoy 52, 5
Cable Drill Bits - Colmonoy 88
Centrifugal Pump Parts and Wear Rings - Colmonoy 52, 5, 62, 6, 72
Choke and Kill Pins - Colmonoy 52, 5
Clamp Plates and Pads -Wallex 6
Compressor Rod Sleeves - Colmonoy 62
Compressor Rods - Colmonoy 62, 6
Downhole Pump Plungers – Colmonoy 42, 4, 52, 5, 62, 6
Drilling Rigs (Idler Shaft) - Colmonoy 75
Drill Bits, Stabilisers, Steering Pads - Colmonoy 25, 7331-60, 7251-60, 7541-55F
Oil Drilling Rig Wash Pipes - Colmonoy 62, 6, 69, 88
Radial Bearings, Drill Motors - Colmonoy 68, WallCarb
Riser Pins - Colmonoy 52, 5, 62, 6, 45
Steel Body Bits - Colmonoy 750
Down Hole Pump Plunger sprayed and induction-fused with Colmonoy 62
APPLICATIONS FOR OIL & GAS INDUSTRY
Clamp Plate and Kickers used for Downhole Drilling - Cast in 17/4 PH Steel
Colmonoy 25F cementing tungsten carbide inserts onto an Integral Stabiliser for Oil & Gas Exploration Industry
5
Mud Motor Radial Thrust Bearing with WallCarb coating on inside
Colmonoy 52 fused onto a plunger with propaneFracturing Pump Plunger using Colmonoy 88
APPLICATIONS FOR OIL & GAS INDUSTRY
Machining of a Thermowell Thermowell Tip - Wallex 6
FRACTURING
Fracturing Pumps Plungers
Colmonoy 62, 88, 6, 62H, 88H, 72
Hydrocyclone Casting - Wallex 6
REFINING
Baffle Grids (Catalyst) - Colmonoy 62, 6
Catalytic Cracker Throats - Colmonoy 62, 6
Thermowell Protecting Plates - Colmonoy 62, 6, 88
Thermowells - Wallex 42, 50, Colmonoy 62, 6, 88
Hydrocyclone Castings - Wallex 6
6
PUMPING
Ball Check Cages - Colmonoy 52, 5, Wallex 6
Blowout Preventors, Operating Pistons - Colmonoy 52, 5
Centrifugal Pump Parts and Wear Rings - Colmonoy 52, 5, 62, 6, 72
Choke and Kill Pins - Colmonoy 52, 5
Oil Pump Sleeves - Wallex 55
Oil Rod Couplings - Colmonoy 62, 6
Oil Well Pump Wear Rings - Colmonoy 52, 5
Oil Well Pump Plungers - Colmonoy 62, 6, 88
Oil Well Rod Guides - Colmonoy 62, 6
Polish Rods and Liners - Colmonoy 52, 5, 62
Pump Plungers (Triplex) - Colmonoy 62, 6, 635, 88, 730
Pump Rods, Sleeves and Seal Faces - Colmonoy 62, 6
Pump Shafts (Caustic) - Colmonoy 62, 6
Pump Sleeves (Hot Oil) - Wallex 50
Pump Sleeves and Bushings - Colmonoy 69, 88, 705
Spiral Rod Guides - Colmonoy 62, 6
Sucker Rod Couplings – Colmonoy 62, 6
Vertical Gas Pumps (Propane and Butane) - Colmonoy 52, 5
Pump Sleeves - Wallex 50
APPLICATIONS FOR OIL & GAS INDUSTRY
Rotor Cast and Machined - Wallex 6Pump plunger sprayed with Colmonoy 52Sucker rod coupling spray and induction fused on a Carousel with Colmonoy 62SA
Inducer Casting - Wallex 6
7
Ball Valve HVOF sprayed, PTA or TIG welded - Wallex 6
APPLICATIONS FOR OIL & GAS INDUSTRY
Ball Valve TIG repaired - Wallex 6
Plug valve spray and fused with Spraywelder- Colmonoy 52
Slide Valve Carrier - Wallex 6
Rotating gates HVOF coated with Colmonoy 88H
Valve repair Laser Cladding - Wallex 6
Plug Casting - Alloy Grade C
VALVES
Catalytic Slide Valve Gates (Seats) - Colmonoy 88
Flow Control Valve parts - Colmonoy 62, 6
Gate Valve Seats - Colmonoy 42, 4, 84
Oil Well Safety Valves - Colmonoy 62, 6
Plug Valves - Colmonoy 42, 4, 52, 5, Wallex 50
Plugs and Flow Control Cages - Wallex 6
Ball Valves - Colmonoy 52, 5, 69SC, 88, Wallex 50
Stem Guides - Wallex 6
Valve Gates - Colmonoy 52, 5, 84, 730
Valve Stem Seats (Ammonia) - Colmonoy 62, 6
Valves (Stationary Engines) - Colmonoy 52, 5
Wedge Valves (Steam) - Colmonoy 52, 5
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Adhesive, or galling, occurs from
metal-to-metal contact between
processing equipment such as screws and
barrels. Contacting metal surfaces subject to
extreme temperatures
often momentarily weld together and then
crack upon separation,
depositing metal particles in the
material being processed.
Abrasive wear is caused by hard
particles gouging or chipping the
surfaces of machine parts. These
abrasive particles are usually sands,
mud, rock or metal pieces dislodged
by adhesive wear.
Corrosion results from chemical
reactions between processing
equipment and the material being
processed. Corrosive agents such as acid at-
tack at the surface of machine or equipment
parts and components.
Erosive wear, is similar to abrasive
wear except the particulate is
suspended in a fluid that impinges
on the part.
Combinations of wear are common. Often
corrosive fluids cause corrosion products (ie.
Rust) to be formed. This corrosion product
is then able to act as an abrasive or erosive
media.
There are various types of wear prevalent in the Oil & Gas Industry. Our alloys
are industry standards for wear-resistant performance. We have developed new
alloys and enhanced others to meet your wear surfacing demands.
WEAR DEMANDS ADDRESSING THE INDUSTRY’S DEMANDS
TYPES OF WEAR
Galling
Abrasive
Corrosion
Erosive
9
OUR SURFACING ALLOYS COMBATTING WEAR PREVALENT IN OIL & GAS INDUSTRY
Colmonoy®
(nickel-based)
1.8 2.7
1.8 0.5 10.0 2.5 3.2
2.5 0.5 11.0 4.5 3.3
3.0 0.6 14.0 4.0 4.2
3.0 0.6 14.0 4.0 4.2
3.5 0.5 16.5 3.0 3.0 5.0 Cu: 2.0
3.2 0.5 12.0 4.0 3.0 13.0
1.4 1.1 29.0 2.2 7.5
3.0 0.6 15.0 3.5 4.0 15.5
2.2 0.4 10.0 2.5 2.3
2.3 0.5 13.8 4.0 3.4
3.0 0.6 14.0 4.0 4.2
15.0 3.5 16.0 4.5 Mn: 1.2
<0.075 22 <5.0 9.0 <0.5 Nb: 3.75
1.9 2.3 8.0 2.5 3.0 30.8 Co: 2.1
1.4 2.9 7.5 2.5 2.4 41.4 Co: 6.0
1.5 2.0 5.4 2.5 2.3 48.0 Co: 0.1
1.8 2.4 8.4 2.5 2.4 39.2 Co: 2.1
0.7 2.5 2.4 0.7 1.8 57.4
0.7 2.5 1.1 57.4
0.75 3.0 3.4 1.5 1.5 46 Co: 5.5
B C Cr Fe Mo Si W Ni Others HRC
NOMINAL COMPOSITION (%) HARDNESS COMMENTSALLOY
25 42 52 62 63 69 72 84 88 4 5 6 276 625 635 75 705 730 7331-60 7251-60
7541-55F
Wallex® (cobalt-based)
1.2 28.0 <3.00 <1.00 1.3 4.5 <3.00 Co:Bal 40-44
2.0 0.6 16.2 2.0 1.9 7.6 13.5 Co:Bal 41-46
3.4 0.8 19.0 2.0 2.8 10.0 18.0 Co:Bal 56-61
2.0 2.3 12.0 1.2 1.7 34.8 12.6 Co:Bal >58 35% WC
642 5055
10
25-31
35-40
45-50
56-63
57-63
58-63
57-62
40-45
59-64
35-40
40-45
56-63
25
97 HRB**
57-63
57-63
58-63
57-63
30-40*
25-31*
Dressing and re-dressing steel and nonmagnetic parts
50% WC
50% WC Use as a buffer layer with 7331-60 / 7251-60 on non-magnetic parts
35% WC
50% WC
50% WC
35% WC
Atomised, crushed or composite powders to be used with most laser cladding and PTA cladding equipment. Reamers; hole openers, steering pads, stabilisers, drill bits etc.
*Depending on method of deposition **Depending on application type and parameter settings
52 Composite blend matric for stabilisers, drill bits, and steering pads for oil & gas extrusion
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
Bal
APPLICABLE SPECIFICATIONSThere are several specifications that are applicable to Colmonoy hard-surfacing
products. The most common of which are outlined below.
ERNiCr-A Colmonoy 4 Colmonoy 4
ERNiCr-B Colmonoy 5 & 56 Colmonoy 52, 53, 56
ERNiCr-C Colmonoy 6 Colmonoy 62, 63
CLASSIFICATION ROD PRODUCTS EQUIVALENT POWDER PRODUCTS
MIL-RNiCr-B-1 Colmonoy 5 & 56 Rod
MIL-RNiCr-C-1 Colmonoy 6 Rod
DESIGNATION PRODUCTS
N99644 Colmonoy 4
N99645 Colmonoy 5
N99646 Colmonoy 6
UNS DESIGNATION PRODUCTS
GE P50YP164 Colmonoy 6
NACE MR-01-75 Colmonoy 4, 5 & 6
GENERAL ELECTRIC
NATIONAL ASSOCIATION OF CORROSION ENGINEERS
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PLASMA TRANSFERRED ARCPTA Machine applying coating to a downhole toolPhoto courtesy of Lion Engineering Ltd (Great Yarmouth)
APPLICATION PROCESSES
We also provide hard-surfacing products for wire or rod application.
HVOFColmonoy 88 HVOF sprayed to Pump Sleeve
SPRAYWELDERColmonoy 52 sprayed by a Spraywelder™ System to Down Hole Pump Plunger
LASER CLADDINGColmonoy 88 Laser Cladded to Pump Sleeve
12
Spraywelder™ J-3 System 106 - 38
Fusewelder™ Torch 106 - 20
M-cut 125 - 45
PTA P1: 180 - 75 P2: 150 - 63 P3: 125 - 53
HVOF H1: 63 - 20 H2: 53 - 20 H3: 45 - 15
Laser 150 - 63
EQUIPMENT NOMINAL PARTICLE SIZE RANGE (μm) MESH SIZE
140 / 400
140 / 625
120 / 325
P1: 80 / 210 P2: 100 / 230 P3: 120 / 270
H1: 230 / 625 H2: 270 / 625 H3: 325 / 800
100 / 230
Colmonoy® 52 Colmonoy 52 is a premium nickel-based alloy
powder produced by inert gas atomisation.
The particle size distribution is closely controlled
and optimised for application with the Model
J-3 SpraywelderTM System.
Colmonoy® 7331-60P2 Colmonoy 7331-60P2 PTA is a composite blend of
a gas atomised nickel-based alloy powder and 60%
by weight monolithic tungsten carbide. The combi-
nation of an extremely tough matrix and very hard
carbide produces an exceptional impact and wear
resistance combination. A dense carbide distribution
with small inter-carbide spacing allows for a large
surface area of tungsten carbide to be exposed to
wear environment to provide maximum service life.
Colmonoy® 730Colmonoy 730 is composite blend consisting
of a highly corrosion resistant nickel-chromium-
tungsten matrix and fine, extremely abrasion
resistant tungsten carbide particles. This unique
combination provides excellent protection against
both corrosion and abrasion. This makes it an ideal
coating for pump plungers operating at
temperatures up to 1200°F (650°C).
HIGHLIGHTED PRODUCTS HARD-SURFACING ALLOYS FOR OIL & GAS
Photomicrograph of Colmonoy 52 applied by the Sprayweld process and fused (original at 50x).
Photomicrograph of Colmonoy 7331-60P2 showing carbide distribution in PTA Weld Over-lay (etched with marbles reagent, original at 100x magnification).
Photomicrograph of Colmonoy 730 (original at 50x)
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Colmonoy® 88 US PATENT NO. 5,141,571
This patented alloy contains chromium, tungsten
borides and carbides for maximum abrasion and
corrosion resistance.
Its premium chemistry provides product versatility
and excellent wear resistance properties. In fact,
its chemistry is such that bi- and tri- metallic hard
phases are precipitated throughout the alloy during
the manufacturing process and during fusion of the
coating.
This hard-phase formation occurs due to the specific
compositional relationship between the elements
of tungsten, chromium, boron, silicon, and carbon.
Rapid quench gas atomisation is utilised to allow
nucleation of hard phases during the manufacturing
process. This distribution of hard phases produces
the exceptional wear characteristics of this alloy.
As an integral part of Colmonoy 88 alloy, these
hard phases do not sink or settle out during the
application process as would the carbides in a
blended composite powder. Thus, the first 0.001”
layer and the last 0.001” layer are virtually the same.
As a pre-alloyed homogeneous powder product,
there is no need for concern about segregation
of carbide and matrix or unexpected loss of hard
phases during the coating process.
HIGHLIGHTED PRODUCTS (CONTINUED)
Photomicrograph of Colmonoy 88 (original at 200x)
G -65 DRY SAND ABRASION TEST
This chart compares abrasive wear test results of several materials under the same conditions. The relatively low volume loss proves the superiority of Colmonoy 88 to all but the hardest of materials.
VOLU
ME
LOSS
CU
BIC
(mm
)
Hardness (Rockwell C) 61 Melting Range:
Density 9.9gm/cc Solidus 987°C (1810°F)
Apparent Density 4.8gm/cc Liquidus 1182°C (2160°F)
14
Rockwell C Scale Hardness of Gas Welded Alloy Deposits
HOT HARDNESS Colmonoy® 62 alloy outwears hardened steel by up to twenty times
High “hot hardness” is a valuable asset for a hard-surfacing alloy, even where it doesn’t
appear that heat is a contributing factor to the wear problem. One of the most important
reasons why Colmonoy® 62 alloy outwears hardened steel by up to twenty times is that the
Colmonoy alloy maintains a higher degree of its initial hardness under high temperatures
than steel.
While some steel can be made initially harder by heat treatment, the surface will become
soft under the heat of friction to a point lower than that of Colmonoy® or Wallex® under
like conditions. It then wears more rapidly. Colmonoy® and Wallex® alloys regain most if not
all of their original hardness upon cooling.
Colmonoy®
(nickel-based)
35-40 34 33 29 26 45-50 46 45 42 3856-63 57 54 49 4550-55 50 48 44 4156-63 57 54 49 4557-62 62 62 56 4159-64 62 61 56 43
21°C (70°F) 315°C (600°F) 427°C (800°F) 538°C (1000°F) 650°C (1200°F)
TEMPERATUREALLOY
42526256697288
40-44 33 27 22 2041-46 38 36 30 2556-61 56 56 56 49
64250
Wallex® (cobalt-based)
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HOT HARDNESS CHART COLMONOY AND WALLEX COATING
TEMPERATURE - °F (°C)
KEY
Colmonoy®
(nickel-based)Wallex® (cobalt-based)
RO
CK
WEL
L C
SC
ALE
HA
RD
NES
S
RO
CK
WEL
L C
SC
ALE
HA
RD
NES
S
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SpraywelderTM System
The SpraywelderTM System offers tight spray
patterns and high spray rates to produce dense,
wear resistant overlays. The Model J-3 is the
culmination of more than 65 years of technical
innovation following the invention of our first
thermal spray gun.
The SpraywelderTM is easy to operate, safe and
versatile. It has built-in efficiency:
Tight spray patterns
High Spray Rates - up to 8 kg/hr with standard
model, and 14 kg/hr with high-output unit.
Dense coatings – flame energy of up to 92,000
BTUs and increased target efficiency deliver hot
metal spray particles to the base metal. The final
result is a strong, dense overlay.
Reliable – The J-3 SpraywelderTM is designed from
our vast field experience and built for years of
daily use with a proven record of success.
“Tight spray patterns and high spray rates to produce dense, wear resistant overlays”
WALL COLMONOY’S HARD-SURFACING EQUIPMENT
98% of the spray powder hits the part within a 19 mm (3/4 in) target when using the D nozzle at 4.5-5.4 kg (10-12) lbs/hr.
19mm 3/4 inch
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THE 5-STEP SPRAYWELD PROCESS:
1. SURFACE PREPARATION
The surface to be overlaid should be clean and free of oil or oxides. Surface preparation involves the following:• Degreasing• Undercutting• Grit Blasting
Our Nicrobraz® Green Stop-Off™ may be applied to prevent thermal spray materials from bonding to adjacent surface areas.
2. PREHEATING
Preheating time varies with the type of base metals:• Mild steels (<0.25% Carbon): <149°C
(<300°F) • Austenitic stainless steel (300 series):
316 - 371°C (600° - 700°F) • Martensitic steel (4340 and 400 series):
260° - 371°C (500° - 700°F)
3. SPRAYING
To produce a uniform, mechanically bonded overlay, the following resources are needed:
• SpraywelderTM including pistol, panel, and hoses
• Spraywelder TM grade powder• Oxy-acetylene or oxy-propylene gases• Compressed air• Variable-speed turning device (as a lathe)• Clean, dry air
4. FUSING
The objective of fusing is to transform the mechanical bond created in the spraying operation into a metallurgical, or welded bond. Most common methods include oxy-fuel torch, controlled atmosphere furnace or induction.
The Colmonoy® and Wallex® overlay and base metal surface must reach a temperature between 982 - 1138°C (1800 - 2080°F) (based on powder selection), at which point the overlay will wet and bond with the base surface without running or losing its shape.
5. FINISHING Wall Colmonoy’s Spraywelder TM powders are easily finished by grinding or machining. For finishing recommendations, request a technical data sheet.
“The culmination of more than 65 years of of technical innovation”
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WORLD HEADQUARTERSWALL COLMONOY | 101 W. Girard | Madison Heights, MI 48071
Tel 248-585-6400 | Fax 248-585-7960 Web www.wallcolmonoy.com | Email [email protected]
EUROPEAN HEADQUARTERSWALL COLMONOY | Alloy Industrial Estate | Pontardawe Swansea Wales (U.K.) SA8 4HL
Tel +44 (0) 1792 862287 | Fax +44 (0) 1792 869474 Web www.wallcolmonoy.co.uk | Email [email protected]
WCL_Oil-&-Gas-Brochure_ENG_0817250
WALL COLMONOY. PROGRESSIVE COLLABORATION FOR SUPERIOR PERFORMANCE. WORLDWIDE.
CINCINNATI | LOS LUNAS | OKLAHOMA CITY | PUNE (INDIA) | WALES (U.K.) | WINDSOR (CANADA)
The information provided herein is given as a guideline to follow. It is the responsibility of the end user to establish the process information most suitable for their specific application(s). Wall Colmonoy Limited (UK) assumes no responsibility for failure due to misuse or improper application of this product, or for any incidental damages arising out of the use of this material.
Copyright © 2017 Wall Colmonoy Limited. All rights reserved.