General Engineering Plastic Rod: Discover the versatile world of general engineering plastic rods that offer remarkable resilience and functionality.
1. Polyamide (PA, Nylon) rod: A staple in the industry, offering a robust solution for high-performance needs.
Characteristics: Boasting high strength and wear resistance, it offers self-lubrication that sets it apart, although it requires pre-drying and processing due to its significant moisture absorption.
Application: Ideal for wear-resistant components such as chemical machinery turbines, gears, and sliding guide plates, revolutionizing mechanical durability.
2. Polyoxymethylene (POM) rod: Known for its remarkable rigidity and resilience, this rod is a game-changer in various applications.
Characteristics: With high rigidity and superior creep resistance, it excels in environments from -40 °C to 104 °C, combined with a remarkably low friction coefficient of 58.
Application: Perfect for lightweight automotive parts, textile machinery gears, and precision bearings, offering unmatched performance at a fraction of the weight.
3. Polypropylene (PP) rod: A lightweight champion in the realm of engineering plastics, balancing strength with versatility.
Features: With a low density of 0.9g/cm³, it's a force to reckon with against acids and alkalis, while being non-toxic and meeting food grade standards.
Application: Widely used in food packaging containers, pharmaceutical equipment pipelines, and chemical anti-corrosion linings, redefining safety and reliability.
4. Polycarbonate (PC) rod: Known for transparency and impact resistance, it stands as a pillar of strength in demanding environments.
Characteristics: Offers transparent beauty with formidable impact resistance, albeit with a need for improved UV stability.
Application: From optical instrument components to bulletproof glass intermediate layers and electronic equipment shells, it elevates performance and safety.
5. Polyphenylene oxide (PPO) rod: Engineered for stability and precision, transforming industries with its unique properties.
Features: Ensures high dimensional stability, exceptional hydrolysis resistance, and outstanding electrical insulation.
Applications: Ideal for medical devices, high-temperature connectors, and automotive sensor housings, mastering precision and reliability.