POSITION:HOME > PRODUCT FUNCTION > High temperature resistance Ultra high and low temperature resistant plastic There are two main ways of NFD high temperature and low temperature engineering plastics. One is to improve heat resistance by adding fibers, minerals, and high temperature additives to ordinary thermoplastic materials, and the other is to use secondary polymerization of super high temperature engineering plastics. To achieve material resistance in high and low temperature environments, the types of high and low temperature resistant modified materials currently developed by NFD include: fluoroplastics, high temperature nylon (PPA), polyethersulfone (PES), and polyetherimide (PEI) , Polyphenylene sulfone (PPSU), polyphenylene sulfide (PPS), liquid crystal polymer (LCP), polyether ether ketone (PEEK), polyarylene ether ketone (PAEK), polyamide imide (PAI), Polyimide (PI), polybenzimidazole (PBI), etc. While maintaining the high temperature resistance of plastics, NFD has improved its wear resistance, flame resistance, rigidity, toughness, corrosion resistance, chemical resistance, dimensional stability, high strength and other properties through innovative material technology. NFD high and low temperature plastics are classified as follows according to the application environment Ultra-low temperature resistant plastic refers to the long-term use temperature of -10 ℃-260 ℃, materials such as: modified fluoroplastics, UPI and so on. Ordinary high-temperature plastic refers to the long-term use temperature of less than 100 ℃, materials such as: PP, ABS, PVC, PE, PS, POM, PET and so on. Medium temperature resistant plastic refers to the long-term use temperature between 100 ° C and 160 ° C. Materials such as: PA6, PA66, PBT, PPO, PC, PTE, PA46, etc. High temperature resistant plastic refers to the long-term use temperature between 170 ℃ and 200 ℃. Materials such as: PPA, PPS, PAR, PEI, PPSU, LCP, PES, PEEK, fusible PI, amino plastic, EP, PF, F, etc. Ultra-high temperature resistant plastic refers to the long-term use temperature of more than 300 ℃, materials such as polyphenyl ester, PBI, non-melting PI, UPI and so on. 1. Use heat-resistant filler talc, calcium carbonate, wollastonite, mica, clay and other minerals to fill and modify to improve the heat resistance of plastics. The smaller the particle size of the filler, the better the modification effect. 2. The use of heat-resistant fiber glass fiber, carbon fiber, aramid fiber, whisker and other reinforced plastics to improve the heat resistance of the material. After the crystalline plastic is reinforced with glass fiber, the high temperature resistance performance is greatly improved. 3. Use high temperature resistant additives to improve the heat resistance of the material, such as phenylmaleimide, add 1% heat resistant agent to improve high temperature resistance by about 2. 4. Using the method of plastic blending modification, adding high temperature resistant materials to low temperature resistant materials, while improving the high temperature resistance of the overall material, it does not affect the performance of the material itself. 5. Use the method of cross-linking to improve the high temperature resistance of plastics. 6. Use biaxial stretching to make the crystallinity of the material finer, the arrangement more compact, increase the degree of orientation, and improve the heat resistance of the material; use the annealing heat treatment method to reduce the internal stress of the material, promote crystallization, and increase the thermal deformation temperature of the material. Regardless of the above general temperature resistance level or ultra-high temperature level, NFD can help you. From previous successful cases, NFD can provide long-term use -260 ℃ (minus 260)-high temperature 400 ℃, short-term up to 550 ℃ Plastic material. Two principles for the selection of high temperature resistant plastics: Only meet the product requirements, do not choose too high temperature resistant materials, otherwise it will waste resources and increase costs; Recommended NFD high temperature plastic models: Tepla® T8240GF (TPI) material has a long-term use temperature of 280 ° C and a thermal deformation temperature of 316 ° C. It has high wear resistance, high strength, very low linear expansion coefficient, high radiation resistance, high rigidity, low flammability, and low exhaust. Tepla® T8130GF (PAI) material has a long-term operating temperature of 260 ° C and a short-term use temperature of 300 ° C. It has high radiation resistance, high UV resistance, high wear resistance, high strength, and self-lubrication. Tepla® T7030GF (PEEK) has a thermal deformation temperature of 316 ° C and a long-term temperature of 250 ° C. It has low linear expansion coefficient, corrosion resistance, insulation, high strength, good fluidity, and high rigidity. Hepla® H9065GM H (PPA) material has a long-term use temperature of 180 and a short-term temperature of 280. It has good fluidity, wear resistance, high strength, and good toughness. Tepla® T8030CF (PEI) has a long-term use temperature of 180 ° C, high toughness, corrosion resistance, steam resistance, good wave permeability, and high strength. Tepla® T2050GF (PPS) has a long-term working temperature of 180, and has weather resistance, aging resistance, smooth surface, and strong chemical resistance. main application Plain bearing Water treatment equipment Lamp housing Industrial equipment Petrochemical Automotive industry Medical equipment If you cannot find your product on the website, please contact the NFD sales staff. NFD can provide you with special customization, please contact here for customized materials ——————— Thank you for visiting NFD! We adhere to the development philosophy of "New Formula Designer" and closely link scientific research innovation with production applications. NFD specializes in special modified composite materials. It has more than 60 substrates and more than 4,000 models of special modified engineering plastics mature formulas. These materials include structural enhancement, conductivity and electronic shielding (EMI), flame retardant, lubricating modified resistance Grinding, long (short) carbon fiber reinforcement, long (short) glass fiber reinforcement, nano plastic, high and low specific gravity, high temperature resistance, laser direct molding, magnetic detection, spray-free plastic and special dyeing materials, etc., providing customers with more Wide selection of materials. PRODUCTS SALES SALES INFORMATION East Asia(0.02M) Africa(0.02M) South America(0.02M) Europe(0.02M) North America(0.02M) PRODUCT FINDER FINDING YOUR NEED NFD Company provides large numbers of engineering plastic types and also mature material modification technologies which can meet the applications requiring properties. You can quickly find the materials that meet your product's capabilities here. Our fast delivery mechanism can make your creative ideas quickly become a reality. MORE
