When it comes to automotive components, durability is critical, especially when exposed to continuous outdoor exposure. Rilsan® fine powders are an ideal solution for powder coating metal automotive components.
Why Powder Coat Automotive Components?
If you have ever had to deal with rust on a car, you know it can be a slow, painful death sentence for the vehicle. Several types of coatings can provide protection, including ceramic, epoxy, liquid paint, anodizing, and powder coating. Powder coating is a versatile method for the long-term protection of metal surfaces across a variety of automotive parts and components.
This high-performance coating method provides a robust shield against rust, corrosion, and other environmental factors that can degrade metal surfaces over time. Unlike traditional paint, powder coating forms a thick, uniform layer that adheres strongly to the metal, ensuring a more durable and resilient finish. Additionally, powder coatings offer enhanced resistance to chemicals and UV radiation, making them suitable for both interior and exterior automotive applications. With its ability to improve the performance and aesthetic appeal of automotive parts, powder coating stands out as a superior choice for manufacturers aiming for longevity and reliability in their vehicles.
Why Use Arkema Rilsan® Powder Coatings?
By choosing an Arkema Rilsan® Powder for Coating your automotive components you can expect the following benefits:
Robust Corrosion Surface Protection
Renewable and Recyclable Powder
Durability and Impact Resistance
Dust and Water Repellency
UV Resistance for Interior or Exterior Applications
Compatible with Powder Coating Methods
Rilsan® powder coatings are a fully renewable powder coating solution that provides a durable, long-lasting, solvent-free, and eco-friendly finished coating. Derived from castor oil, these coatings embody sustainability while ensuring outstanding performance, making them an ideal choice for environmentally conscious automotive manufacturers. Rilsan® coatings are incredibly robust and provide exceptional resistance to chemicals, abrasion, and impact, offering reliable protection for critical automotive components.
Additionally, their solvent-free nature reduces the emission of volatile organic compounds (VOCs), contributing to a healthier work environment and lessening the ecological footprint. By opting for Rilsan® powder coatings, manufacturers not only enhance the durability and functionality of their products but also demonstrate a commitment to sustainable practices and innovative solutions in the automotive industry.
What Automotive Components Can You Powder Coat?
Automotive manufacturers can utilize powder coating for a wide range of application areas and components to ensure extensive protection and enhanced durability. Critical parts such as drive shafts, drive lines, steering columns, and fasteners greatly benefit from powder coating due to its superior resistance to chemicals and abrasion.
Under-the-hood components, such as engine parts and battery casings, also take advantage of the high-temperature resistance and durability powder coatings provide, ensuring long-lasting performance. Suspension systems, including springs and stabilizer bars, are frequently powder coated to protect against environmental damage while maintaining their structural integrity.
Moreover, exterior elements, such as door handles, trim pieces, and even alloy wheels, can be powder coated to enhance their aesthetic appeal and shield them from weathering and UV damage. By applying powder coating across these various components, manufacturers can significantly increase the longevity and reliability of their vehicles, ultimately leading to improved overall vehicle performance and customer satisfaction.
How to apply a Rilsan Powder Coating?
Rilsan® fine powders can be applied to a variety of substrate types with standard powder coating methods. A pretreatment phase may or may not be needed depending on the type of part—Rilsan® provides a range of high-quality primers here. Once the surface is prepared, the powders can be applied via electrostatic spray or fluidized bed, ensuring a thin film coats the entire part. Parts can then be transferred to an oven for the final finish and cook off, ensuring a durable, aesthetic coating that provides long-term corrosion and wear protection. To learn more about coating methods, please explore our guides below!