EN 10289 Liquid Epoxy Coated Onshore and Offshore Steel Pipe
- Applied Steel Service Pipe: API 5L/ISO 3183 Gr.B-X100, ASTM A53/A106 Gr.B, ASTM A252, ASTM A333 Gr.1/3/6, ASTM A671/A672/A691, EN 10219-1, EN 10210-1
EN 10289 Liquid Epoxy Coated Onshore and Offshore Steel Pipe
Designed for use in demanding onshore and offshore applications, our EN 10289 liquid epoxy coated steel pipes offer unparalleled protection against corrosion and chemical attacks. Manufactured with a steel substrate that meets API 5L, DIN EN 10225, or ASTM A106 standards, these pipes are then coated with a thick layer of high-quality liquid epoxy that provides exceptional resistance to corrosive environments and mechanical stress. With their excellent durability and resistance to wear and tear, EN 10289 pipes are perfect for use in the oil and gas, petrochemical, and construction industries. Whether you need pipes for onshore infrastructure projects or offshore platforms, our EN 10289 liquid epoxy coated steel pipes provide the reliability and performance you need to get the job done. With easy installation and maintenance, these pipes are a smart choice for any project where safety, quality, and durability are paramount.
Specifications
Standard for coating | EN 10289 Liquid Epoxy Coated Onshore and Offshore Steel Pipe |
Applied Steel Service Pipe | API 5L/ISO 3183 Gr.B-X100, ASTM A53/A106 Gr.B, ASTM A252, ASTM A333 Gr.1/3/6, ASTM A671/A672/A691, EN 10219-1, EN 10210-1 |
Processing ability | OD:300mm-3600mm;WT:2.9mm-60mm |
Length | 6-18m |
Packing | 1. Both ends of the pipe are beveled to 30°+5°/-0° according to ASME B16.25. 2. For large-diameter pipes (OD≥NPS 8″), each pipe is equipped with 3 anti-collision ropes (3 locations) and 2 slings, with plastic covers at the ends of the pipes, or reusable metal bevel protectors (with sealing cloth), loosely packed. 3. For small-diameter pipes (OD≤NPS 6″), each pipe is equipped with 3 anti-collision ropes (3 locations), plastic covers at the ends of the pipes, and 2 slings per bundle (the whole bundle can be wrapped in a woven bag according to the coating type or customer requirements) and tied with plastic strips (woven bags are placed underneath to protect the coating from scratches) |
Technique | Coated on Seamless/ERW/HFW/LSAW/SSAW/JCOE/UOE/RBE Steel Pipes |
Surface Preparation | ISO 8501-1/SIS 055900/DIN 55928 Sa 2.5/NACE No.2/SPCC SP10 (Near White Metal Finish) |
Service condition | Onshore and Offshore |
Place of origin | Made in China |
MOQ | Depends on order quantity |
Transportation | Railway, By Sea |
External Applied Epoxy Coatings
Manufacturer | Product Name | Application | Features |
3M | 3M™ Scotchkote™ Epoxy Coating 323 | Onshore and Offshore | High build, corrosion-resistant, excellent adhesion to steel, and long-term protection in harsh environments. |
3M | 3M™ Scotchkote™ Epoxy Coating 328 | Offshore | Excellent seawater resistance, designed for subsea and splash zone applications, robust corrosion protection. |
AkzoNobel | Interzone 954 | Onshore and Offshore | High-performance, two-component epoxy, excellent resistance to abrasion and chemicals, ideal for submerged and non-submerged areas. |
AkzoNobel | Intergard 475HS | Onshore and Offshore | High solids epoxy, good adhesion, and resistance to a wide range of chemicals, suitable for harsh environments. |
Hempel | Hempadur 85671 | Onshore and Offshore | High-build epoxy coating, excellent resistance to seawater and corrosive environments, suitable for submerged areas. |
Hempel | Hempadur Mastic 45880 | Onshore | Versatile epoxy mastic coating, good adhesion and corrosion resistance, suitable for maintenance and new construction. |
Jotun | Jotamastic 87 | Onshore and Offshore | High solids, surface-tolerant epoxy mastic, excellent adhesion, and corrosion resistance, suitable for various environmental conditions. |
Jotun | Barrier 77 | Offshore | High-build epoxy coating, excellent corrosion resistance, designed for harsh offshore environments including splash zones and submerged areas. |
EN 10289 specifies requirements for external coating of steel tubes and fittings with liquid epoxy, which finds extensive applications in both onshore and offshore environments across various industries. Here are the key applications of EN 10289 external liquid epoxy coated steel pipes:
Onshore Applications
Oil and Gas Pipelines
Transmission Pipelines: External liquid epoxy coatings are used to protect onshore pipelines transporting crude oil, natural gas, and refined products over long distances. The coating provides excellent resistance to corrosion from soil and atmospheric conditions.
Gathering Lines: Used for collecting oil and gas from wellheads and transporting them to processing facilities, ensuring the integrity of the pipeline in varying environmental conditions.
Water and Wastewater Pipelines
Potable Water Systems: Coated pipes are used in municipal and industrial water distribution networks to prevent corrosion and ensure the safe transport of drinking water.
Wastewater Systems: Protects pipes from corrosion in sewage and wastewater systems, where exposure to corrosive materials is common.
Chemical Processing
Industrial Applications: Used in chemical plants and refineries to transport corrosive chemicals and fluids, offering resistance to chemical corrosion and maintaining pipeline integrity.
Infrastructure Projects
Construction: Coated pipes are used in construction projects for various applications such as bridges, tunnels, and underground utility lines, ensuring durability and longevity in harsh environmental conditions.
Offshore Applications
Subsea Pipelines
Oil and Gas Exploration: External epoxy coatings are essential for subsea pipelines transporting oil and gas from offshore platforms to onshore facilities. They protect corrosive seawater, marine organisms, and mechanical damage.
Offshore Platforms
Risers and Flowlines: Coated pipes are used in risers and flowlines connecting subsea pipelines to offshore platforms. They ensure long-term corrosion protection and structural integrity under harsh marine conditions.
Renewable Energy
Wind Farms: Used in offshore wind farms for transporting electrical cables and structural components, providing corrosion resistance in marine environments.