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Technora faser Technora® filament yarn can be converted into short-cut fibers or dipped chopped fibers with a range of lengths, typically between 1 mm and 30 mm, for use in, for instance, resin, cement and rubber reinforcement. The effects of temperature on fiber strength and modulus are shown in Figures 17 and 18, respectively. Technora® fiber is a very strong para-amid fiber ideal for dynamic performance applications involving significant motion. Technora fiber is produced by condensation polymerization of different copolymers, yielding a high modulus, low creep, and thermally stable fiber. 39 g/cm3 Decomposition temperature > 500 °C Based on TGA analysis Coefficient of thermal expansion -6 x 10-6 /°C Technora® Fiber. 30 T400NF 220 41 1850 4. Manufacturer Teijin™ Common Types & Deniers T-200 Rubber Technora® Short-cut fiber. The fiber is used in many industries to reinforce cables, ropes, hoses, transmission belts, reinforced rubber products, and composites. Technora fiber offers high tensile strength and modulus, and fatigue, heat, and chemical resistance. Warwick specializes in using Technora fiber in sailcloth as well as aerospace applications. Technora is 8 times stronger than steel and 3 times stronger than fiberglass, polyester or nylon yarns. Technora® spun yarn Type (dtex) Breaking strength (N) Breaking tenacity (mN/tex) Elongation at break (%) T400 440 81 1850 4. Technora fiber lies somewhere between “high modulus PPTA” (HM PPD-T) and “regular PPTA” (SM PPD-T). A unique combination of properties Technora® is the highest performing fiber in the aramid family available on the market today. It is strong and light weight. 30 Technora® general characteristics Density 1. The rates of tenacity and modulus losses with increasing temperature of Technora fiber are somewhat similar to those of PPD-T fiber. Our Technora® fiber is supplied in a continuous multifilament configuration and precision wound on a cardboard tube for convenient handling and continued processing. . Technora® fiber is an aromatic copolyamide that has a highly oriented molecular structure, consisting of both para and meta linkages. kip oadf ngev wmwrgl anoxzoj jrk kjhua offyxc zksp nesa |
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