At Duro-Glide, we take pride in our ability to offer top-of-the-line UHMW sheets designed to meet a variety of industrial requirements. One of our standout products is the #925 White High Temp UHMW, which is highly sought after for its unique properties that make it perfect for specific applications.
The #925 White High Temp UHMW (Ultra High Molecular Weight Polyethylene) has been specifically engineered for use in high temperature environments, reaching temperatures of up to 275°F in air. It is crafted to meet FDA compliance standards, ensuring its safety for direct food contact and making it a vital component in the commercial baking and food industries. This material is ideal for applications where temperatures surpass the typical UHMW maximum of 180°F, offering extended durability and performance in demanding environments. Its advanced thermoplastic properties are particularly advantageous for wear parts in industries such as dairy, bakery, poultry, meat, and other food processing sectors where elevated temperatures or frequent chemical washdowns can shorten the lifespan of components. Additionally, its proprietary antioxidant formula safeguards the polymer against degradation in challenging conditions.
In addition to its high temperature capability and FDA compliance, the #925 White High Temp UHMW boasts low friction and high wear resistance characteristics. This combination ensures smooth operation and extended durability, reducing maintenance costs and enhancing overall efficiency in processing environments.
The #925 White High Temp UHMW is offered in a range of colors to cater to specific industry needs. Standard sheet dimensions measure 48 by 120 inches, with strict tolerances of +0.050 to -0.000 inches. Thickness options span from 1/4 inch to 4 inches, ensuring adaptability for various industrial uses.
For businesses looking to optimize their operations with materials that offer superior heat resistance and durability, the #925 White High Temp UHMW plastic sheet is the solution. Contact Duro-Glide today to explore how this advanced material can be customized to meet your specific requirements and enhance your operational efficiency.