Bowers Industrial

Thurmalox 260

Industrial Reactor Protected by PC-517 Poly-Chemcure Glass Filled Epoxy Mastic Coating
Industrial water treatment plant with PC-517 Poly-Chemcure Glass Filled Epoxy Mastic Coating
Large industrial storage tank getting coated with PC-517 Glass Filled Epoxy Mastic Coating

Thurmalox 260

General Description Thurmalox 260 series coatings are air drying, self-priming, corrosion and heat resistant coatings based on a silicone copolymer resin and a highly effective corrosion inhibitive pigment system. Thurmalox 260 series coatings are designed for application to ambient temperature metal surfaces or directly to hot metal surfaces up to 500°F (260°C) of operating equipment. These heat resistant coatings provide a tough chemically resistant, durable finish with excellent film integrity and color stability. Thurmalox 260 series coatings protect metal surfaces from corrosion and weathering up to 500°F (260°C), with peaks to 600°F (315°C). Thurmalox 260 series heat resistant coatings are available in a wide range of standard (see Master Color Card) and custom colors. We have other products and systems of which we can Engineer to fit your application. Give us a call at 801-977-0508!
Industrial Reactor Protected by PC-517 Poly-Chemcure Glass Filled Epoxy Mastic Coating
Industrial water treatment plant with PC-517 Poly-Chemcure Glass Filled Epoxy Mastic Coating
Large industrial storage tank getting coated with PC-517 Glass Filled Epoxy Mastic Coating

Thurmalox 260

FAQs About Our

PC-517 Poly-Chemcure Coating is designed for a variety of surfaces, including steel, concrete, and other industrial substrates. It is particularly effective for protecting steel tanks, pipelines, and structural components exposed to corrosive environments. The coating adheres well to properly prepared surfaces, ensuring optimal performance and durability.
The recommended application process for PC-517 Poly-Chemcure Coating involves thorough surface preparation to remove contaminants like rust, grease, or old coatings, typically through abrasive blasting for optimal adhesion. Once the surface is clean and dry, the coating components should be mixed according to the manufacturer’s instructions until a uniform consistency is achieved. The coating can be applied using a brush, roller, or spray equipment, depending on the project requirements and surface type. Multiple coats may be necessary for enhanced protection, with proper curing time allowed between layers to ensure durability and performance.
PC-517 offers exceptional resistance to a wide range of chemicals, including acids, alkalis, and solvents. It is also highly resistant to abrasions, making it suitable for areas subject to mechanical wear. Its robust formulation protects against environmental factors such as UV radiation, moisture, and temperature fluctuations, ensuring long-lasting performance in harsh conditions.
The typical curing time for PC-517 varies depending on temperature, humidity, and coating thickness. Under standard conditions (approximately 25°C/77°F and low humidity), the coating may cure within 24–48 hours. Full curing for maximum chemical and abrasion resistance usually takes 7–10 days. Factors like lower temperatures, higher humidity, or inadequate ventilation can extend curing time.
Yes, PC-517 is engineered to perform well in high-temperature environments and extreme conditions. Its heat-resistant formulation ensures stability and adhesion in temperatures up to its specified limits. Additionally, it withstands harsh industrial settings, including exposure to aggressive chemicals, mechanical impacts, and fluctuating environmental conditions, making it a reliable choice for demanding applications.

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