The PAN-based carbon fiber precursor was prepared with gel spinning method.
利用凝胶纺丝方法制备了聚丙烯腈基碳纤维原丝。
PAN-based carbon fiber with high strength is one of the newest materials in 21 century.
PAN基碳纤维具有优良的力学性能,被誉为二十一世纪的新型材料。
The property of PAN-based carbon fibers and carbon fiber cloth used as negative electrode of secondary lithium ion battery is reviewed.
讨论了几种PAN基炭纤维和炭纤维布作为二次锂离子电池负极的行为。
PAN-based Carbon fiber is a new material with exceptional mechanical property. It has been extensively applied in aviation, space flight, construct, sports, automobile, medical treatment, etc. fields.
聚丙烯腈基碳纤维是一种力学性能优异的新材料,在航空、航天、建筑、体育、汽车、医疗等领域得到广泛的应用。
Based on SAXS theory and fractal theory, we obtain the calculating method and calculating formulas of the pore size, pore volume percentage and the fractal of pore surface in PAN - based carbon fiber.
基于小角X射线散射理论,利用逐级切线法和材料分形理论中的散射强度法,分别计算PAN基炭纤维内微孔大小、体积分数及微孔表面分形维数。
The PAN based high modulus carbon fiber(HMCF) has been produced by high speed heating and continuous graphitization apparatus with the high frequency induction heating method.
采用高频感应快速加热连续石墨化装置,制备PAN基高模量炭纤维(HMCF)。
A new type of fluidized preoxidation furnace was designed in this paper based on characteristics of PAN base carbon fiber production process.
根据PAN基碳纤维生产的特点,设计了一种新型流态化预氧化炉,并对其关键部件的特点与作用以及流态化粒子的选择作了系统描述。
A new type of fluidized preoxidation furnace was designed in this paper based on characteristics of PAN base carbon fiber production process.
根据PAN基碳纤维生产的特点,设计了一种新型流态化预氧化炉,并对其关键部件的特点与作用以及流态化粒子的选择作了系统描述。
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