In the field of prototype processing, POM, PEEK, and PTFE materials are widely used in different scenarios and play an important role due to their unique performance characteristics.
POM is known for its high strength, high rigidity, and excellent wear resistance. These characteristics make POM commonly used in prototype machining to produce components that require high loads and frequent friction, such as gears, bearings, and sliders. In industries such as machinery, automotive, and electronics, POM prototypes can accurately verify the structural design and motion performance of products, ensuring reliability and stability before large-scale production.
PEEK stands out for its excellent high temperature resistance, chemical stability, and mechanical strength. PEEK prototype is suitable for making precision parts that need to work in extreme environments, such as aerospace, medical, and semiconductor fields. Its excellent high temperature resistance and chemical corrosion resistance enable PEEK prototype to maintain stable performance in high temperature, high pressure, and corrosive media, providing reliable guarantee for the long-term use of the product.
PTFE is known for its extremely low coefficient of friction and excellent chemical stability. In prototype processing, PTFE is often used to make components that require low friction and corrosion resistance, such as seals, sliding bearings, and pipelines. Its unique self-lubricating performance makes PTFE hand plates excellent in reducing wear and extending service life. Meanwhile, the chemical corrosion resistance of PTFE also makes it an ideal choice for industries such as chemical, pharmaceutical, and food.