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AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING

  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • NF A49-710 EPOXY COATING+NF A49-708 EPOXY LINING
  • CAN/CSA Z245.20/AS 3862 DUAL LAYER FBE COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • DIN 30670 3PE anti corrosion coated steel pipe
  • Glass syntactic polyurethane pipe insulation
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
  • AWWA C210,AWWA C215,ISO 12944,API RP 5L2,DIN 30670,DIN 30678,NFA 49-710 COATING
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Brand Name︰-
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Unit Price︰US $ 8 / SQ.M
Minimum Order︰100 SQ.M
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Product Description

Anti-Corrosion Coating Protection

1.       Coating

1.1 Fusion Bonded Epoxy

Fusion Bond Epoxy is a powder epoxy thermosetting coating applied for anticorrosion protection to steel pipelines. The pipe is first blast cleaned and heated. Then epoxy powder is spray applied by electrostatic guns to melt and form a uniform layer that hardens within a minute from application. Utilizing industry accepted materials supplied by manufacturers such as 3M, DuPont, and Nap-Gard,etc.

It is applied in the form of a dry powder at thicknesses of 400-600 microns onto the heated surface of the steel pipe. Once applied and cured, the epoxy film exhibits an extremely hard surface with excellent adhesion to the steel surface. The FBE protective surface is homogeneous and offers an excellent resistance to chemical reaction.

The FBE coating systems provide protection at moderate temperatures (-40ºC to 85ºC) and come in two options:

·         FBE Dual: recommended for sub-sea pipelines and flowlines operating in the toughest environments. It offers excellent impact resistance and abrasion properties which, combined with its good flexibility, provide suitable protection against coating damage during pipe transportation and construction

·         FBE Non-slip: this coating system provides a rough, non-slip surface for a pipeline that will subsequently be concrete-coated

Fusion Bonded Epoxy with Abrasion Resistance Overcoating (FBE/ARO) – Utilizing two completely separate powder systems, the facility can produce FBE with an ARO at unprecedented processing speeds using industry accepted materials such as 3M 6352, DuPont 7-2610, and Nap Gard.

Abrasion Resistant Overcoating (ARO) is an optional sacrificial second layer in the FBE process that is designed to protect the FBE from impact and/or rock damage while still retaining mild flexibility.  Directional bores and road crossings are common examples of installations that require ARO to keep the anti-corrosion coating intact.  The ARO is applied immediately following the FBE application using a similar method but normally in a separate coating booth.  While the FBE is still in the gel state, the applied ARO powder forms a commingled layer with the FBE and ultimately a strong, durable and resistant outer shell, usually at a final thickness of 20 to 40 mils.

Fusion Bonded Epoxy with High Temperature Resistant Overcoating – Utilizing two completely separate powder systems, the facility can produce FBE with a high operating temperature resistant overcoating such as DuPont’s Nap-Gard Gold and 3M’s 6258.

1.2 Three Layer Polyethylene (3LPE) & Three Layer Polypropylene (3LPP)

The three-layer pipe external anti-corrosion system consists of a layer of high-performance Fusion Bonded Epoxy onto which a co-polymer adhesive layer is extruded, followed by a layer of extruded polyethylene or polypropylene until the desired thickness is obtained.

This coating system provide pipeline protection at the following operating temperatures:

·         Three-layer polyethylene:  suitable for temperatures between -40ºC and 85ºC

·        Three-layer polypropylene:  suitable for temperatures between -40ºC and 110ºC

In addition to the chemical and adhesive properties of the epoxy powder, the polyethylene coating system provides physical and mechanical advantages. The polypropylene coating system ensures performance at high temperatures.

Advantages OF THE Three-Layer Coating System

·         Excellent corrosion resistance. When exposed to either acid or alkaline media, an extended lifetime in highly corrosive soils is assured 

·         Strong steel adhesion: 20 times more adhesive than traditional plastic tape systems 

·         Excellent cathodic disbondment test results 

·         Excellent mechanical resistance 

·         Free of holidays: The hot extrusion method used to perform the coating assures a continuous and a uniform thickness profile, without air   bubbles and holiday-free

·         High dielectric resistance 

·         Superior bending ability for pipe laying applications 

·         High impermeability: Both the high-density polyethylene and polypropylene have low water permeation characteristics that allow improved isolation from the surrounding sea water compared to other coating systems

 

1.3 Internal Coating

 

The primed FBE coating is a two-layer structure anti-corrosion system for pipe internal surface consisting one liquid phenolic primer layer and fusion bonded epoxy (FBE) coating as topcoat.

 

·         Liquid epoxy

·         Internal Fusion Bonded Epoxy (FBE)

·         Special anticorrosive painting

Internal coating features:

·         Suitable for fresh and salt water immersion

·         Effective for speeding up production

·         Suitable for corrosive environments

·         Resistant to many solvents and chemicals

·         Resistant to cathodic disbondment

1.4 Thermal Insulation

·         Glass syntactic polyurethane

·         Polypropylene foam syntactic

·         Multi-layer polypropylene

·         PIPE-IN-PIPE INSULATION

Glass syntactic polyurethane pipe insulation

We offer syntactic polyurethane thermal insulation solutions for flow assurance in applications involving offshore shallow water pipelines. This option can be used in operating temperatures of between -35ºC and 115ºC.

Polypropylene foam syntactic insulation

To guarantee offshore flow assurance, we offer a polypropylene foam syntactic insulation coating system recommended for operating temperatures ranging from -35ºC to 155ºC and water depths of a maximum 2,800 meters.

Multi-layer polypropylene pipe insulation 

We provide a multi-layer thermal insulation application process that results in a combination of anti-corrosion and thermal insulating materials applied to steel pipe in multiple layers. The system is similar to a conventional three-layer anti-corrosion system; however, additional layers of solid, foam or syntactic polypropylene are used depending on the water depth.

The multi-layer polypropylene is recommended for operating temperatures of up to 140ºC and water depths greater than 3,000 meters. Meanwhile, the multi-layer polypropylene foam works in operating temperatures ranging from -20ºC to 140ºC and water depths up to 600 meters.

Pipe-in-pipe insulation

Our offer includes coating for pipe-in-pipe systems, which include an outer pipe able to withstand water pressure and prevent water penetration, and an inner pipe which conducts the production fluids. The thermal insulation material is placed between the production flowline and the carrier pipe.

We supply the outer pipe, inner pipe and high-efficiency insulation system to optimize flow assurance in the most complex scenarios.

1.5 Comparison of Anti-Corrosion Coating Protection Systems

 

Coatings

Layers

Characteristics

Specifications

Fusion Bonded Epoxy (FBE)

Single Layer FBE

·         Long term corrosion protection

·         Good mechanical and chemical protection

·         Max operating temp. -30°C to 110°C

CSA Z245.20

AS 3862.2002

Dual Layer Fusion Bonded Epoxy (DFBE)

2 Layers FBE

·         Excellent impact and abrasion resistance

·         Resistance to cathodic disbondment

·         Max operating temp. -30°C to 110°C

CSA Z245.20

Three Layer Polyethylene (3LPE)

1st - FBE
2nd - Copolymer Adhesive
3rd - Polyethylene

·         Long term corrosion protection

·         Very good mechanical protection

·         Max operating temp. -40°C to 85°C

CSA Z245.21
DIN 30670
AS 1518

Three Layer Polypropylene (3LPP)

1st - FBE
2nd - Copolymer Adhesive
3rd - Polypropylene

·         High temp corrosion protection

·         Excellent mechanical protection

·         Max operating temp. -20°C to 110°C

CSA Z245.21
DIN 30670
DIN 30678

Concrete Weight Coating (CWC)

1st - Anti-corrosion Coating
2nd - Reinforced Concrete
3rd - Outer Wrap

·         Negative buoyancy and mechanical protection

·         Coating thickness: 25mm to 150mm

ISO 21809-5:2010

1.6  Application

1.6.1 Epoxy Coating

Made of epoxy resin. Excellent mechanical property and resistance to chemical, water and corrosion, high flexibility and electro-insulating property. Suitable for use as high-dury coating on metal surfaces. Not recommended for general exterior coating.

Properties:

Density

1.4-1.7

Particle size

100% <100um

Horizontal fluidity(180%)

22-35mm

Curing Condition:      Low-gloss types: 200°C, 15 min .Others: 180°C, 15 min.

Cured Membrane Properties :Sample: 0.5mm cold rolled phosphated SS sheet. Membrane thickness 60-80um.

Mechanical properties

Item

Typical measured value

Method

Impact strength

No crack observed at 50kg/cm.

GB/T1732-93

Erichsen cupping test

1mm at above 6.0mm/s.

GB/9753-88

Adhesion (CEOSS CUT)

Pass

GB/T9286-88

Flexural test

1mm diameter, 180°. No crack observed.

GB/T6742-86

Pensil hardness

2H pencil leaves slight trace.

GB/T6739-86

 

Boiling water resistance

1hr submersion. No change observed.

-

Chemical properties

Alkali resistance

5% NaOH, 240hr. No change observed.

GB/T9274

 

Acid resistance

3% HCl, 240hr. No change observed.

GB/T9274

 

Solvent resistance

Xylene, 24hr. No change observed.

-

 

Staining resistance

Lipstick , RT 24hr. No change observed.

-

Heat resistance

180°C, 1hr. Color deviation E<0.8.

Corrosion resistance

Salt fog resistance

1000hr. No change observed.

GB/T1771-91

Damp heat resistance

1000hr. No change observed.

GB/T1940-79

Average Spread Rate:

8-16M2/Kg, thickness 60-80um (calculated as 100% powder).

Packaging:

PE lined paper box. Net weight 20Kg.

Storage:             Store in a cool (<30°C), dry, ventilated place. Storage life: 12 months. Do not stack more than 4 layers.

Precaution:           Avoid skin contact. Do not inhale.

 

1.6.2 PE Coating

Thermoplastic powder coating. Excellent flexibility, insulating property and resistant to chemical and low temperature. Suitable for thick coating. Non-poisonous.

Types Available:

A, Standard type; B, weather resistant type; C, engineering type

A: suitable for bike parts, toy, tools, etc.

B: suitable for exterior structures, air conditioner casing, etc.

C: suitable for road grid, exterior grille, chemical equipment, pipe, etc.

Application condition:

Pre-heat the part to be coated to 270-360°C, place in a fluidized bed for 4-8s, then baking at 180-190°C for 2-5 min. Stay to let coating film leveled.

Powder Properties:

Density

0.9-0.92

Non-volatiles

≥99.5%

Melt index

10-50g/10min

Particle size

220-270um

Cured Membrane Properties:

Item

Method

Typical measured value

Gloss (60°C)

GB/T9754-1988

≥60%

Flexural test (film thickness 200um)

GB/T6742-1986

2mm

Accelerated ageing (B, C types)

GB/T18226-2000

pass

GB/T16427-1999

Tensile strength (B, C types)

GB/T1040-1992

9.80Mpa

Rupture elongation (B, C types)

GB/T1040-1992

≥100%

Shore A hardness

GB/T4977-1985

45-55

Packaging:

Compound paper bag. Net weight 20Kg.

Storage:

Store in a cool (<35°C), dry, ventilated place. Storage life: 12 months.

Precaution:

Avoid skin contact. Do not inhale.

2. Coating Specification

2.1External Epoxy Coating

CAN/CSA-Z245.20 Standard for External Fusion Bond Epoxy Coating for Steel Pipe
API RP 5L9  External Fusion-Bonded Epoxy Coating of Line Pipe
AS 3862 Standard Specification for External Fusion-Bonded Epoxy Coating for Steel Pipes
AS 4352-2005 Testing for Coating Resistance to Cathodic Disbonding
AWWA C210 Standard for Liquid-Epoxy Coating Systems for the Interior and Exterior of Steel Water Pipelines
AWWA C213 Standard for Fusion Bonded Epoxy Coating for the Interior and Exterior of Steel Water Pipelines.
BP GIS 06-402 Guidance on Industry Standard for Fusion Bonded Epoxy Powder External Pipeline Coatings
DEP 31.40.30.32-Gen  TECHNICAL SPECIFICATION FOR EXTERNAL FUSION-BONDED EPOXY POWDER COATINGFOR LINE PIPE
NFA 49-710  Standard Specification for External FBE layered Coating

ISO 15741: Paints and Varnishes - Friction-Reduction Coatings for the Interior of On-and Offshore Steel Pipelines for Non-Corrosive Gas.
ISO 21809-2:2007, Petroleum and natural gas industries-External coatings for buried or submerged pipelines used in pipeline transportation systems-Part 2: Fusion-bonded epoxy coatings
NACE RP0394 – National Association of Corrosion Engineers Standard Recommended Practice, Application, Performance, and Quality Control of Plant Applied, Fusion Bonded Epoxy External Pipe Coating.
NACPA 12-78 – National Association of Pipe Coating Applicators External Application Procedure for Plant Applied fusion Bonded Epoxy (FBE) to Steel Pipe.
SAES-H-002 Internal and External Coatings for Steel Pipelines and Piping
09-SAMSS-089 Shop-Applied External FBE Coating
09-SAMSS-091 Shop-Applied Internal FBE Coatings

TransCanada TES-CO-FBE-GL: External Fusion Bond Epoxy for Steel Pipe Specification (CAN-US-MEX) Table 12-1 & Table 12-2 (Fusion-Bonded Epoxy Powder & Coating Qualifications).

2.1.2 Polyethylene Coating

CAN/CSA Z245.21 External Polyethylene Coating for Pipe
DIN 30670 Polyethylene Sheathing of Steel Tubes and of Steel Shaped Fittings

NFA 49-710 External Three-Layer Polyethylene Based Coating, Application by Extrusion
DNV-RP-F106 Factory Applied External Pipeline Coatings For Corrosion Control
AS/NZS 1518 External Extruded High-Density Polyethylene Coating System for Pipes
AS4321      Fusion Bonded Medium-Density Polyethylene coating and lining for pipes and fittings 

EN 10288-2003 Steel tubes and fittings for on and offshore pipelines - External two layer extruded polyethylene based coatings

ISO/DIS 21809-1 Petroleum and natural gas industries -- External coatings for buried or submerged pipelines used in pipeline transportation systems - Part 1: Polyolefin coatings (3- layer PE and 3- layer PP)
ISO 21809-4:2009, Petroleum and natural gas industries -External coatings for buried or submerged pipelines used in pipeline transportation systems-Part 4: Polyethylene Coatings (2-layer PE)
BP GIS 06-403 Guidance on Industry Standard for the Application of Three-Layer Fusion Bonded Epoxy-Polyethylene Coating and Three-Layer Polypropylene Coating System for Line Pipe
DEP 31.40.30.31-Gen. TECHNICAL SPECIFICATION FOR EXTERNAL POLYETHYLENE AND POLYPROPYLENE COATING FOR LINE PIPE
IPS-G-TP-335 Material and Construction Standard for Three Layer Polyethylene Coating System
NFA 49-710  External 3 layer Polyethylene Coating
PETROBRAS' ET-200.03 Engineering Specification ("Piping Materials for Production and Process Facilities") for using low density linear polyethylene in carbon steel piping, as to appendix 13 of such specification.
09-SAMSS-113 External Renovation Coating for Buried Pipelines and Piping (APCS-113)
UNI 9099-DIN 30670 Polyethylene Coating Applied by Extrusion

2.1.3 Polypropylene Coating
DIN30678 Polypropylene Sheathing of Steel Tubes and of Steel Shaped Fittings
EN 10286 Steel tubes and fittings for onshore and offshore pipelines –External three layer extruded polypropylene based coatings.
NFA 49-711 External Three-Layer Polypropylene Based Coating, Application by Extrusion
09-SAMSS-114 Shop-Applied Extruded, Three-Layer Polypropylene External Coatings for Line Pipe

2.1.4 Polyurethane Coating
AWWA C222-99: Polyurethane Coatings for the Interior and Exterior of Steel Water Pipe and Fittings
BS 5493- Polyurethane Coating
DIN 30677.2 polyurethane Insulation of the fittings
EN 10290- External Liquid Applied Polyurethane Coatings

2.1.5 Polyolefin Coating
AWWA C225-03: Fused Polyolefin Coating Systems for the Exterior of Steel Water Pipelines
AWWA C215-99: Extruded Polyolefin Coatings for the Exterior of Steel Water Pipelines
AWWA C216-00 Standard for Heat-Shrinkable Cross-Linked Polyolefin Coatings for the Exterior of Special Sections, Connections, and Fitting for the Steel   Water Pipelines
AWWA C224 - 01: Two-layer Nylon-11 Based Polyamide Coating System for Interior and Exterior of Steel Water Pipe and Fittings
AWWA C225 - 03: Fused Polyolefin Coating Systems for the Exterior of Steel Water Pipelines

2.1.6 Tape Coating
ISO 21809-3:2008, Petroleum and natural gas industries-External coatings for buried or submerged pipelines used in pipeline transportation systems-Part 3: Field joint coatings
AWWA C209-00: Standard for Cold-Applied Tape Coatings for the Exterior of Special Sections, Connections, and Fittings for Steel Water Pipelines
AWWA C214-00 Standard for Tape Coating Systems for the Exterior of the Steel Water Pipelines
AWWA C217-99 Standard for Cold-Applied Petrolatum Tape and Petroleum Wax Tape Coatings for the Exterior for Special Sections, Connections, and Fittings for Buried/Submerged Steel Water Pipelines
AWWA C218-02 Standard for Coating the Exterior of Aboveground Steel Water Pipelines and Fittings
AWWA C224-01: Two-layer Nylon-11 Based Polyamide Coating System for Interior and Exterior of Steel Water Pipe and Fittings
EN 12068 - DIN 30672 STANDARD-POLYETHYLENE SELF ADHESIVE TAPES

2.1.7 Bitumen Coating
DIN 30673 Bitumen coatings and linings for steel pipes, fittings and vessels.

2.1.8 Coal-Tar Enamel Coating
AWWA C-203 Coal-Tar Protective Coatings and Linings for Steel Water Pipelines-Enamel and Tape-Hot-Applied
AWWA C205 Cement Mortar Protective Lining and Coating for Steel Water Pipe - 4 inch (100 mm) and Larger- Shop Applied

2.1.9 Concrete Weighted Coating
DNV-OS-F101 Submarine Pipeline System
DEP-31.40.30.30 1991 Concrete coating of line pipe
ASTM C171 Specification for Sheet Material for Coating Concrete
BS EN 12620 Aggregates for Concrete
ISO 21809-5:2009, Petroleum and natural gas industries -External coatings for buried or submerged pipelines used in pipeline transportation systems - Part 5:External concrete coating.
ASTM C42 Standard Test Method for Obtaining and Testing Drilled Cores and Sawed Beams of Concrete
ASTM C642 Standard Test Method for Specific Gravity, Absorption and Voids in Hardened Concrete
ASTM C87 Standard Test Method for Effect of Impurities in Fine Aggregate on Strength of Mortar BS 1881 Methods of Testing Concrete
BS 3148 Methods of Test for Water for Making Concrete
BS 4482 Hard Drawn Mild Steel Wire for the Reinforcement of Concrete
BS 4483 Specification for Steel Fabric for the Reinforcement of Concrete
BS 4449 Specification for Carbon Steel Bars for Reinforcement of Concrete
ISO 4012 Determination of Compressive Strength of Test Specimen

2.1.10 Offshore Structure Coating
EN ISO 12944:1998 – Paints & Varnishes – Corrosion Protection of Steel Structures by protective paint system (parts 1 – 8)
ISO 20340:2009 Paints and varnishes – Performance requirements for protective paint systems for offshore and related structures
ISO 15741 Paints and varnishes-Friction-reduction coatings for the interior of on- and offshore pipelines for non-corrosive gases

2.2. Internal Coating

2.2.1 Epoxy Coating

API RP 5L2 Recommended Practice for Internal Coating of Line Pipe for Non-Corrosive Gas Transmission Service.

DEP 31.40.30.35 1998 Internal coating of line pipe for non-corrosive gas transmission service (amendments/ supplements to API RP 5L2)
AWWA C210: Liquid-Epoxy Coating Systems for the Interior and Exterior of Steel Water Pipelines
NFA 49-709 Internal can be epoxy 80 microns
NFA 49-708 Recommended Practice for Internal Coating of Line Pipe

TransCanada TES-COAT-INT: Internal Coating of Line Pipe for Non-Corrosive Gas Transmission Service (Cdn-US).
TransCanada TES-COAT-EPU: External Multi-Component Liquid Coating Systems for Below Ground Facilities (Cdn-US-Mex).
TransCanada TES-EPU-TEST: External Multi-Component Liquid Coating Systems Test Requirements (Cdn-US-Mex).

2.2.2 Bitumen Lining
DIN 30673 Bitumen coatings and linings for steel pipes, fittings and vessels
UNI-ISO 5256/87 STANDARD-BITUMEN COATING

2.2.3 Cement Mortar Lining
AS 1281-2001 Cement mortar lining of steel pipes and fittings
AS/NZS 1516 Cement Mortar Lining of Pipelines In Situ
AWWA C203-02: Coal-Tar Protective Coatings & Linings for Steel Water Pipelines, Enamel & Tape, Hot-pap. (Incl. add. C203a-99)
AWWA C205-00: Cement-Mortar Protective Lining and Coating for Steel Water Pipe- 4 In. (100 mm) and Larger-Shop application
AWWA C602    Standard for Cement-Mortar Lining of Water Pipelines - 4 inch (100 mm) and Larger - In Place

 

2.       Coating Materials


3M: SK 134, SK6233, SK6352 Toughkote, SK 314, SK 323, SK 206N, SK 226N, SK 6251 DualKote SK-6171, SK 206P, SK226P,
3M Internal Coatings: Coupon EP2306HP
DuPont: 7-2500, 7-2501, 7-2502, 7-2508, 7-2514, 7-2803, 7-2504 Nap Gard Gold 7-2504, Nap Rock: 7-2610, 7-2617 FBE Powders
DuPont: Repair Kits; 7-1631, 7-1677, 7-1862, 7-1851
DuPont Internal Coatings: 7-0008, 7-0010, 7-0014, 7-0009SGR, 7-0009LGR, 7-2530, 7-2534, 7-2509
Akzo Nobel: Interzone 485,Interzone 505,Interzone 954,Internline 876 Seal Coat
Hampel: 85448,97840
Denso: 7200, 7900 High Service Temperature Coatings
Internal Liquid Epoxy: Powercrete Superflow

Specifications︰AS/NZS 2312.1-2014 Guide to the protection of structural steel against atmospheric corrosion by the use of protective coatings - Paint coatings

AS/NZS 2312.2-2014 Guide to the protection of structural steel against atmospheric corrosion by the use of protective coatings – Hot dip galvanising

AS/NZS 4680-2006 REC:2017 Hot-dip galvanised (zinc) coatings on fabricated ferrous articles.
Standard Met︰Abrasion: ASTM D968 & D4060.
Adhesion: ASTM D1002, D3330, D3359, D4541, D6677, & ISO 15741.
Autoclave: API RP5L2
(One-Liter Vessel up 6kPSI & 300ºF, Inert Gases only).
Cathodic Disbondment: API RP 5L7, ASTM G8, G42, G95, A950
CSA Z245.20, NACE SP0394-2013 (77ºF to 203ºF).
Chemical Resistance: ASTM G20.
Coating Thickness: Dry Film Thickness Gage & Microscopic.
Compression: ASTM D695 & D1621 (20,000-lb max).
Density: ASTM D792, D1472, & D1622.
DSC: CSA Z245.20 & NACE SP0394-2013.
Flexibility: ASTM D522, CSA Z245.20, & NACE SP0394-2013.
(Conical Mandrel, Fixed-Radius Mandrel, & Four-Point).
Gouge: CSA Z245.20
(SL-1 Smooth Bit, SL-1 Single-Cut Burr, or R-33 Double-Cut Burr up to 100kg).
Hardness: ASTM D2240, D3363, & Buchholz.
Holiday Testing: Dry-Spark up to 35kV & Wet-Sponge.
Impact: ASTM D2794, ASTM G14, CSA Z245.20, & NACE SP0392-2013.
Indentation: ASTM G17, DIN 30670, & DIN 30678.
Microphotography: Up to 80X.
Tensile: ASTM D638, D1000, & D2370.
Thermal Conductivity: ASTM C177.
Water Absorption: ASTM D570.
Water Immersion: ASTM D870, CSA Z245.20, &
NACE SP0394-2013 (75ºF to 203ºF).
Weathering: ASTM G154.
Product Image



NF A49-710 EPOXY COATING+NF A49-708 EPOXY LINING
NF A49-710 EPOXY COATING+NF A49-708 EPOXY LINING

CAN/CSA Z245.20/AS 3862 DUAL LAYER FBE COATING
CAN/CSA Z245.20/AS 3862 DUAL LAYER FBE COATING







DIN 30670 3PE anti corrosion coated steel pipe
DIN 30670 3PE anti corrosion coated steel pipe

Glass syntactic polyurethane pipe insulation
Glass syntactic polyurethane pipe insulation








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