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Corrosion Protection | Piping Technology & Products, Inc.

16 Jun.,2025

 

Corrosion Protection | Piping Technology & Products, Inc.

Corrosion protection

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This technical bulletin will consider four methods of protecting carbon steel pipe supports components from corrosion; painting, zinc coatings, hot dip galvanizing, and combinations of these. Painting has an advantage when appearance and choice of color are important. Modern painting systems may be appropriate protection in certain environments. Paint provides “barrier” protection to a metal surface. The ability of zinc to provide cathodic protection for carbon steel in addition to barrier protection is a fundamental advantage. In most cases the reduction in life-cycle costs justifies the small additional cost of galvanizing. Indeed painting and galvanizing together can provide a synergistic benefit which may be justified in some cases.

The use of zinc and galvanizing has a long history. The early patents for hot dip galvanizing were issued in France and England in and . This technology was quickly adopted and was widely used in the late-s. In the United States we have bridges more than 100 years old which have galvanized structures. In addition, we have transmission towers and substation structures that are over 70 years old. A pipe rack at a petrochemical plant near Houston was studied after 28 years of service. Measurements of the zinc thickness remaining provided a forecast of another 60 years of service. Pulp and paper mills use galvanized materials in most of their critical environments. It is important to understand the fundamentals which make this “old” technology so cost effective in such a wide variety of applications.

Electrochemistry of Zinc & Carbon Steel

Corrosion is an electrochemical process which occurs when four elements are present; an anode which gives up electrons, a cathode which receives electrons, an electrolyte (which is usually an aqueous solution of acids, bases, or salts) and a metallic current path. The rate at which corrosion occurs depends on the electric potential between the anodic and cathodic areas, the pH of the electrolyte, the temperature, and the water and oxygen available for chemical reactions.

Hot dip galvanizing has two advantages over a zinc coating. During galvanizing, the molten zinc reacts with the carbon steel to form layers of zinc/iron alloys. Figure 3 shows a galvanized surface with 5 layers, the top layer is 100% zinc and the bottom layer is carbon steel. The alloy layers between have increased hardness to provide mechanical (barrier) protection and because of their zinc content they are also anodic relative to carbon steel. The hardness of these alloy layers provides much more protection from scratches than paint can provide. This is important for most pipe supports applications.

Any coating which provides a barrier to the moisture and oxygen in the air will help protect carbon steel from corrosion. A properly painted surface will provide a barrier, but it is subject to scratching from contact with hard objects. Figure 4 illustrates how rust can grow and damage a painted surface when corrosion begins because the paint barrier is broken by a scratch.


Figure 4

Figure 5 illustrates the cathodic protection provided when a galvanized surface is scratched.

Duplex Systems usually require painting over galvanizing. Some of our customers have specified a duplex system. This is more expensive but it can be justified for certain corrosive environments or for appearance. The American Galvanizing Association suggests the following “rule of thumb” to estimate the service life of a duplex system.

(Duplex System Service Life) = 1.5* (Service Life: HDG Only) + (Service Life: Paint Only)
*The synergistic multiplier of 1.5 is based on the barrier protection the paint provides for the galvanized surface.

At Piping Technology and Products Inc., many customers have returned painted variable and constant spring supports which could no longer function due to corrosion. Costs must be considered during the specification of coatings for pipe supports. The owner and operator of a facility should consider life-cycle costs. Pipe supports are usually a relatively small percentage of the total cost of installing and operating a power plant, petrochemical plant, paper mill or other major facility. The small additional cost of hot dip galvanizing the carbon steel components of pipe supports is most always a wise investment.

For more information you may want to contact the following organization:

American Galvanizing Association-AGA
E. Illif #204 Aurora, CO
ph 800-468-

5 Ways to Prevent Pipe Corrosion

If you’re working on an engineering project, the dread of pipe corrosion probably keeps you up at night. And we’re right there with you. The global cost of corrosion has been estimated at $2.5 trillion.

Beyond the astronomical cost, corrosion can stop production, cause injuries, and put a worker’s life in danger. On top of all that, it’s sneaky and hard to spot with the naked eye.

Still, corrosion doesn’t have to be scary. Rest easy, You can fight back against this pesky metal punisher, keep pipes whole, and save some money in the process.

We’ve nailed down exactly what pipe corrosion is and how to stop it.

What Is Pipe Corrosion?

Besides being the bane of many a pipe installer’s existence, pipe corrosion is simply when piping material breaks down because of its environment.

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You’ve probably run into rusty sections of pipes or other metal pieces. These spots usually look eaten away or worn down. That’s a sign of structural or pipe corrosion.

What does it mean for pipes or beams? Too often, it creates unsturdy pieces of metal that could give way without warning.

What Causes Corrosion?

The most simple cause of corrosion is contact. That can be when metal comes in contact with all kinds of things, including water, oxygen, grime, or other metal. Any of these elements can set off the problem, but each kick-starts corrosion for different reasons.

Corrosion is a chemical reaction that plagues metals. The problem starts when a piece of metal loses electrons and is weakened. Those electrons are encouraged to leave when the metal is in contact with an electrolyte, like water, and electron-greedy materials.

Suddenly, the metal is vulnerable to other destructive chemical reactions. The result can be things such as rust, cracks, and holes.

Unfortunately, there’s more bad news for pipes. Pipe corrosion is also self-perpetuating, which means corrosion gets worse once it starts. However, there are ways to keep corrosion from creeping into piping or non-piping surfaces.

Here are five ways to fight off corrosion:

1. For Pipes, Watch Your Water

Water is a major corrosion causer. Especially in copper piping, too low of a pH level can hurt the pipe’s lining. The EPA recommends you make sure your water’s pH hovers between 6.5 and 8.5.

You’ll also want to monitor the oxygen levels in your water. Oxygen leads to rust, and it can cause buildups and blockages.

Another good idea is to keep water temperatures low when possible. Hotter water tends to be more corrosive.

2. Keep Pipes Clean

Microbiologically induced corrosion (MIC) happens when metals are exposed to corrosive bacteria. It’s smart to clean pipes to prevent MIC, especially when pipes are in contact with sulfides regularly.

You can use inhibitors or biocides to keep fluids clean. Another option is to consider chemical treatment for water or other liquids.

3. Add Protection to All Metals

Protective linings or special coatings can prevent corrosion in pipes as well as other surfaces. That includes things such as beams, joints, and bolts.

For instance, galvanization works by adding a layer of zinc to metallic surfaces such as steel or iron.

It’s also wise to use a sealant to keep corrosive bacteria from settling into joints or crevices in the first place.

4. Keep Structures Stable

Friction, jiggling, and bouncing wear on metal. When openings start to form, corrosive material sets in, and it can lead to crevice corrosion.

A good way to prevent crevice corrosion is to use a restraint. Things such as U-bolts, straps, and clamps cut down vibrations that can lead to corrosion.

5. Protect Against Metal-to-Metal Contact

Not all metals get along. Galvanic corrosion happens when one metal pulls electrons from another metal. The result is a weakened section and a compromised structure.

The best way to protect against metal-to-metal corrosion is to insulate the metal. For piping, consider installing insulators, such as wear pads or pipe shoes. Insulators add a buffer between metals, so the metal stays durable longer.

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