2) UHMWPE fiber
UHMWPE纤维
1.
Mechanical properties of UHMWPE fiber under heating state
热状态下UHMWPE纤维的力学性能
2.
The influence of resin content, surface density and laminated style on the ballistic property of water soluble polyurethane/UHMWPE fiber composite has been investigated in detail.
本文比较了纤维预浸料不同结构形式与防弹性能的关系,并详细研究了水性聚氨酯/UHMWPE纤维防弹复合材料的含胶量、面密度和叠层方式等预浸工艺参数对材料防弹性能的影响,结合弹道实验分析了各因素作用的机制。
3.
It alsooutlines the future development direction of surface modifica-tion of UHMWPE fiber.
文章论述了UHMWPE(超高相对分子质量聚乙烯)纤维表面改性的几种方法化学试剂处理法、等离子体处理法、电晕放电处理、辐射引发表面接枝处理等;分析了这些方法的改性原理及取得的效果和工业化进展,提出了UHMWPE纤维表面改性的可能发展方向。
3) fiber reinforcement
纤维增强
1.
Preparation of scriber with poplar and willow bushes and research on fiber reinforcement technology;
速生柳灌木重组制材及其纤维增强技术研究
2.
From the simulation result,the fiber reinforcement with weak interface could bring out not only higher strength and stiffness but also higher toughness of the composi.
研究了弱界面长纤维增强脆性基复合材料在单轴拉伸荷载下的力学性能及其破裂机理和破坏过程。
3.
The latest progress of polymer- based composites with regard to fiber reinforcement,solid lubricant filling,metal and non- metal filling,surface treatment of filling etc.
介绍了纤维增强、填加固体润滑剂、填加金属及和金属填料、填料的表面处理等聚合物复合材料方面的最新研究情况,并重点评述了其摩擦学行为的研究进展。
4) reinforcing fiber
增强纤维
1.
Effect of the amount of phenolic resin on friction coefficient and specific wearabilty and reinforcing fiber on impact strength are experimentally studied.
试验结果表明,在进行聚合物基摩擦材料的配方设计时,要根据所选用酚醛树脂和增强纤维的种类合理控制用量,可达到较好的摩擦磨损性能和冲击韧性。
2.
The demands for reinforcing fiber are introduced.
介绍了增强纤维的性能要求,详述了增强纤维的研究现状及发展趋势。
5) fiber reinforced
纤维增强
1.
Problems of the Gr(C)/Mg interface in Gr(C) fiber reinforced magnesium matrix composites;
石墨(碳)纤维增强镁基复合材料的界面问题
2.
Application of fiber reinforced concrete pavement construction;
摊铺机铺筑纤维增强混凝土路面应用探讨
3.
The purpose of this article is to review the present status of study of W fiber reinforced Zr-based amorphous matrix composite , including the behavior of interfacial soakage, interfacial reaction and residual stresses, etc.
评述了W纤维增强Zr非晶合金复合材料的界面润湿行为、界面反应和残余应力等研究现状,分析了影响复合材料界面的因素,讨论了控制和优化界面特性的途径和方法。
6) fiber-reinforced
纤维增强
1.
A Novel Material of Construction of Aeroplane—Fiber-reinforced Aluminum Alloy Laminated Plates;
一种新型飞机结构材料——纤维增强铝合金胶接层板
2.
Preparation and Characterization of Bionic Microstructure in Fiber-reinforced Artificial Bone;
纤维增强型微管结构仿生人工骨的制备及特性研究
3.
The problem of interfacial debonding and fiber pullout in fiber-reinforced brittle matrix composite material is analyzed.
对纤维增强复合材料中界面的脱粘和纤维的拔出行为进行了研究,通过纤维间距d来考虑纤维之间的相互影响,改变脱粘段的剪切强度和粘结段的临界能量释放率,推导出了纤维拉拔荷载和纤维脱粘长度之间的变化关系,与StangH的模型进行了对比,当纤维间距较大时,纤维之间的相互影响相对较小,此时与StangH的单根纤维拉拔情况较为相符,但当纤维间距较小时,由于临近纤维的影响,使得在相同脱粘长度的情况下,纤维拉拔荷载和纤维拔出端位移有减小的趋势,改变复合材料板层的厚度,由于影响了基体的变形,界面的脱粘和纤维的拔出行为也受到了相应的影响。
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
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条