1.PPS/PEEK melt blend prepared by melt-blending is introduced,and the influence of a dif- ferent content of PEEK and a different size of PEEK particales on the crystallization behavior of PPS in the PPS/PEEK blend is investigated by DSC.
采用熔融共混法制备结晶/结晶共混体系PPS/PEEK,并用差示扫描量热法研究了不同PEEK含量和不同PEEK粒径对PPS/PEEK共混物中PPS组分结晶行为的影响。
2.MULTIPLE MELTING BEHAVIOR OF PEEK IN CRYSTAL/CRYSTAL BLENDS OF POLYPHENYLENE SULFIDE(PPS) AND POLYETHER ETHER KETONE(PEEK)
聚苯硫醚(PPS)/聚醚醚酮(PEEK)共混体系中PEEK的多熔融行为
3.It is revealed by the property determination that the glass transition temperature (Tg) is increased and enthalpy (AHf) is decreased as the nanosized Al2O3 is added to the PEEK. The higher strengths in tension, compression, bending and impact are also achieved in the nano Al2O3 contained polymer in comparison with the unfilled PEEK.
通过对所研制材料的物理力学性能进行研究,结果表明:纳米Al_2O_3粉体填充使PEEK的玻璃化温度略有升高,熔融热减少,拉伸、压缩、弯曲和冲击强度明显提高;
4.Studies on the Application of PEEK for Cap-valves in Gas -compressor
PEEK在气体压缩机阀片上的应用研究
5.CRYSTALLIZATION BEHAVIOR OF PPS COMPONENT IN PPS AND PEEK MELT-BLENDS(I)
多次扫描温度对熔融共混PPS/PEEK中PPS组分的结晶行为的影响
6.Objective: To study mechanical degradation characteristic of carbon fiber reinforced polyester (CFR/PET), polysulfone (CFR/PSF) and polyetheretherketone (CFR/PEEK) in simulant physiological environment.
目的:研究碳纤维增强(CFR)的聚酯(PE)、聚砜(PSF)和聚醚醚酮(PEEK)等复合材料在模拟生理环境中的力学性能变化。
7.The effect of water environment on he growth of delamination fatigue cracks wasinvestigated with unidirectional laminates made from ICI APC-2 thermoplastic prepregs(AS4/PEEK).
本文研究了水环境对ICIAPC-2热塑性预浸料(AS4/PEEK)制成的单向复合材料层合板分层疲劳裂纹扩展的影响。
8.The Development and Biomechanical Experimental Study about CF/PEEK Composite Femoral Prosthesis
CF/PEEK全髋股骨头假体的研制与生物力学实验研究
9.The progress in the research on the mechanical properties, mechanism of tribological wear, biological compatibility and microstructure of carbon fiber (CF) reinforced polyether-ether-ketone (PEEK) composite is reviewed in this paper.
摘要综述了碳纤维增强聚醚醚酮(PEEK)复合材料在机械力学性能、摩擦磨损机理、生物相容性、微观结构等方面的研究进展。
10.Conclusion: CFR/PEEK has an excellent biocompatibility to bone tissue. [
结论 :CFR/PEEK对骨组织有良好的相容性。
