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LFT-G 항공 우주 PEEK 고강도 및 강성 사출 성형 펠릿PEEK introduce PEEK can also be called polyether ether ketone, as a high-performance semi-crystalline plastics, such plastics have excellent chemical resistance, mechanical strength, dimensional stability and a series of good performance, according to the performance is divided into a variety of series of materials, the most common classification of PEEK materials are PEEK pure material, glass fiber or carbon fiber modification. PEEK Pure Material We can see that with an elongation at break of 15%, PEEK Pure, despite its high toughness, has a modulus of elasticity of only 4,200mpa, the lowest in the family of plastics. This relatively low modulus means that PEEK pure is 'softer' and less abrasion resistant than other PEEK modifiers. Therefore, if you are using PEEK pure in frictional working conditions, be aware of material loss due to wear of the material. PEEK filling Long Carbon Fiber Material PEEK LCF30 is a 30% longer carbon fiber filled plastic based on PEEK pure material, the carbon fibers increase the modulus compared to PEEK pure material while maintaining maximum toughness of the material PEEK CF30 is a material that maintains a very high level of stiffness and relatively high toughness. In addition, long carbon fiber modified PEEK exhibits excellent wear resistance and very good friction properties. PEEK LCF30 has better wear resistance compared to PEEK LGF30. Long carbon fibers conduct heat more efficiently. PEEK LCF30 is therefore suitable for sliding applications. Like PEEK pure resins, PEEK LCF30 has excellent hydrolysis resistance in steam and boiling water. The difference between LCF and SCF Staple fiber can also be called cut section fiber, staple fiber is obtained mainly by cutting off the chemical long fibers into a section of short fibers, so that the fibers formed are about the same length as natural fibers. Under normal circumstances, between 35-150 mm is called the length of staple fiber. In the composite material made of fiber is cut or pulled, the fiber is pulled from the matrix, such a pulling process is conducive to the absorption of energy provided by the loading, in a certain length range of the fiber, the longer the fiber, the greater the absorption of energy, and its strength is also more significant. And in the same volume amount, due to the longer the single fiber, the fewer the number of fiber roots, the less stress concentration generated at the fiber end, the more difficult the destruction of the material. From the results of the feedback of practical applications, the long carbon fiber reinforced thermoplastic composites of 6mm-24mm have more excellent various properties than the short fibers. 또한, 마찰 과정에서 탄소 섬유 강화 복합 재료, 섬유 몸체는 윤활에 중요한 역할을 하고 장거리 탄소 섬유는 훨씬 더 지속 가능하고 안정적인 윤활이 가능하므로 마찰 계수가 낮고 마모가 적으며 더 미세한 연마 파편. 이러한 장점으로 인해 긴 탄소 섬유 강화 열가소성 복합재는 고주파 및 하중을 두려워하지 않으며 실제 응용 분야에서 훨씬 더 우수한 성능을 발휘합니다. PEEK-LCF 소재 적용
- 전기 액세서리용 긴 탄소 섬유 강화 PEEK
- 검은색 펠릿 PEEK 샘플 사용 가능
- PEEK LCFR 자동차 부품 3D 프린터
- 사출 금형 PEEK 자동차 부품 폴리머
- 금속 대신 경량 PEEK
- 복합 펠렛 폴리머 과립
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LFT 고특성 폴리에테르에테르케톤 긴 탄소 섬유 강화 열가소성 화합물PEEK의 기계적 특성으로 인해 다양한 시나리오에서 보강재로 사용될 수 있습니다.
- 탄소섬유 강화 기계적 성질 엿보기
- peek 30 탄소 섬유 강화
- 탄소섬유복합체 엿보기
- 재료의 장점과 단점을 살펴보세요
- 소재 항공 우주 엿보기
- 의료용 폴리에테르에테르케톤(Peek)
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