Powder coating for pipeline anticorrosion

Surface Finish Options Overview

The service life of the pipeline depends largely on the anti-corrosion method of the steel pipe. The use of good coating materials and coating methods can make the service life of the pipeline reach decades or longer. Before the 1950s, the materials used for anti-corrosion coatings were mainly coal tar enamels and other materials, which provided good protection for the pipeline. However, these materials also had many disadvantages and their application scope was limited to a certain extent. It was not until the late 1950s that the introduction of epoxy resin heavy anti-corrosion sintered powder coatings made a leap in pipeline protection technology. Experts have evaluated and compared several anti-corrosion materials based on decades of experience data. It can be seen that epoxy sintered powder coatings are incomparable to other materials from both technical and economic perspectives.

Standard pipeline powder coating melts a layer of 300-800 microns of thermosetting epoxy organic coating with good bonding ability on the inner wall of the steel pipe. It not only has the characteristics of high strength, easy connection and water impact resistance of steel pipes, but also overcomes the characteristics of easy corrosion, pollution, scaling and poor fire protection performance of steel pipes when encountering water.

Steel pipes can be directly used in drinking water projects, meet sanitary performance indicators, and have a service life of 30-50 years.

FAQ

1. What is Powder Coating?

Powder coating is a dry finishing process used to apply a protective and decorative coating on metal or other surfaces. Instead of using liquid paint, fine powder particles (usually made of polyester, epoxy, or hybrid resins) are electrostatically charged and sprayed onto a conductive surface. The coated object is then baked in an oven, where the powder melts, flows, and cures into a smooth, durable finish.

Key features:

Durable, hard finish

Resistant to scratches, corrosion, and UV

Environmentally friendly (no VOCs)

2. Benefits of Powder Coating

Powder coating offers several advantages over traditional liquid painting:

Durability: Resistant to chipping, scratching, fading, and wear.

Corrosion Protection: Provides excellent protection against rust and chemicals.

Environmentally Friendly: No volatile organic compounds (VOCs) and minimal waste.

Efficiency: Overspray can be collected and reused, up to 99% material utilization.

Uniform Finish: Smooth, even coating without runs or drips.

Cost-Effective: Single-coat systems can achieve high film thickness, reducing labor and energy.

Aesthetic Variety: Wide range of colors, textures, and effects.

3. What Temperature to Cure Powder Coating

The curing temperature depends on the type of powder used:

Epoxy powder: ~160–200°C (320–392°F)

Polyester powder: ~180–210°C (356–410°F)

Hybrid (Epoxy-Polyester) powder: ~180–200°C (356–392°F)

Typical curing time: 10–20 minutes depending on thickness and oven type.

Always follow the powder manufacturer’s specifications for best results.

4. Process for Powder Coating

The powder coating process usually follows these steps:

Surface Preparation:

Clean the surface thoroughly (remove oil, grease, rust, or dirt)

Methods: chemical cleaning, sandblasting, or phosphating

Pre-Treatment:

Apply a conversion coating or primer if needed to improve adhesion

Powder Application:

Spray the powder using an electrostatic spray gun or fluidized bed

Curing:

Bake the coated object in an oven at the recommended temperature for the powder type

The powder melts and forms a continuous, smooth film

Cooling & Inspection:

Let the coated item cool

Inspect for defects, uniform coverage, and desired thickness

5. How to Spray Powder Coat

Equipment Needed:

Electrostatic spray gun

Compressed air supply

Powder feed hopper or container

Grounding of the object

Steps:

Ground the object: Ensures the charged powder is attracted to the surface.

Spray evenly: Hold the gun 6–12 inches from the surface, moving in smooth, overlapping strokes.

Apply sufficient powder: Ensure full coverage without excessive buildup.

Cure immediately: Transfer the sprayed item to the curing oven to fuse the powder into a solid coating.

Tips:

Maintain consistent speed and distance while spraying.

Use proper ventilation to reduce airborne powder accumulation.

Test a small area to check film thickness and color before full application.