Corrosion Resistant Resins are useful for industrial applications because they can endure high temperatures and corrosive liquids.

Corrosion resistant resins are a unique category of industrial materials that have the ability to withstand corrosion in heavy-duty industrial applications. These resins are usually manufactured through a combination of heat and chemical resistance and vinyl ester printing. Most of these specialty polyester materials come with the capability to withstand extreme temperatures and corrosive liquids. They are used in a wide range of manufacturing applications from automotive fluids to oil and gas.

Corrosion resistant resins are often chosen as the material of choice by manufacturers for use in a variety of applications as these resins have an advantage over standard polyester because theory are known to have superior mechanical properties. Some of these superior mechanical properties include: increased temperature resistance, low density, anti-corrosion, resistance to ultraviolet light, superior thermal conductivity, and electrical and physical properties. Because of these superior characteristics, corrosion resistant resins are used in a variety of industries.

These resins were previously primarily made up of vinyl ester-based compounds; however, recent technological advancements have led to the development of isophthalic (isoprene) corrosion-resistant resins. The "isoprene synthesis" procedure is used to create the isophthalic component in this type of resin. This method of producing isophthalic resin requires heating to cause a chemical reaction that permits isophthalic chemicals to be produced.

The increasing intricacy and quality of digital computer equipment is another reason driving the demand for corrosion resistant polymeric components. Many companies rely on computers and other electrical devices that are susceptible to temperature variations. Computers and many other electrical equipment can also be exposed to high levels of moisture, heat, and chemicals. These characteristics pose considerable obstacles to resin component performance and lifespan. As a result, high-quality corrosion-resistant polymers have become increasingly important to computer manufacturers.