1) in-situ fiber
自生纤维
1.
The results showed that in-situ fiber was distributed uniformly in matrix, parallel to the extrusion direction.
5%;原位复合材料的强化机制主要是基体和增强体间界面结合良好,既能发挥基体的塑韧性,又能有效发挥自生增强体的强度优势,材料的断裂机制为自生纤维脆性断裂和劈裂。
3) free fibre
自由纤维
5) Raw silk fiber
生丝纤维
1.
Raw silk fiber was grafted with ethyl methacrylate(EMA) as monomer and ammonnium persulfate(APS) as initiator.
以甲基丙烯酸乙酯(EMA)为单体、过硫酸铵(APS)为引发剂对生丝纤维进行接枝,探讨了纤维增重率的影响因素和红外光谱性能。
6) as-spun fiber
初生纤维
1.
The properties of as-spun fibers and precursors were decreased when those parameters were lower or higher than the .
分析了凝固浴温度、浓度、表观负拉伸等凝固条件对聚丙烯睛初生纤维形态结构的影响规律及作用机理,得出最佳的凝固工艺参数。
2.
The results showed that the coagulation bath composition had little influence on the size of the internal micropores in the fibers, and the fibrillation of as-spun fibers occurred in a slight degree during the spinning process.
用扫描电子显微镜研究了初生纤维形态结构 ,发现聚酰亚胺初生纤维的内部孔洞较小 ,而且受凝固浴配比的影响也较小。
3.
The effects of acid content of coagulation bath and PANI content of spin dope on the morphology and structure of as-spun fibers were studied by SEM.
采用扫描电子显微镜 ( SEM)研究了凝固浴中酸的含量以及纺丝浆液中 PANI的含量对初生纤维形态结构的影响 ,并探讨了初生纤维的微观结构对纤维的拉伸性能的影
补充资料:碳(石墨)纤维增强体(见碳纤维、石墨纤维)
碳(石墨)纤维增强体(见碳纤维、石墨纤维)
earbon(graPhite)fibrereinforeements
,、、里z耽维增强体earbon(graphi现inforcements用于复合材料中承受负荷,田的磷纤始知五史纤俯亡e)fibre起增强作
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