2) Resin matrix composite
树脂基复合材料
1.
The article described mechanism of physical and chemical modification technology of resin matrix composite and its progress.
概述了树脂基复合材料物理及化学改性技术的作用机理,以及近年来改性技术的最新进展情况,对几种典型改性树脂基复合材料做了简要的介绍。
2.
The theory and application of the resin matrix composite in infrared stealthy technique,radar stealthy technique,and multiple spectrum stealthy technique are presented.
阐述了树脂基复合材料在红外隐身,雷达隐身、多谱隐身技术中的隐身原理及应用情况,分析了树脂基复合材料在隐身技术中的地位和广阔应用前景。
3.
The basic conception of the photopolymerization reaction, the constitution of the photopolymerization resin matrix and the kinds of the reinforced materials in the photopolymerization resin matrix composites were introduced.
介绍光固化反应的基本概念、光固化树脂基体的组成及光固化树脂基复合材料用增强材料的种类。
3) resin based composite
树脂基复合材料
1.
The requirements for the interfacial combining of the resin based composite under forced condition have been analyzed.
分析了树脂基复合材料受力状况下对界面结合的要求 ,着重介绍了微量冲击和临界纤维断裂长度分析两种检测树脂基复合材料界面剪切强度的方法及其研究成果。
2.
Several resin based composites were prepared by filling of graphite, carbon black and coke in phenolic resin, NBR modified phenolic resin and polytetrafluroethylene (PTFE) as the bonding agents.
采用酚醛树脂、丁腈橡胶改性酚醛树脂和聚四氟乙烯 (PTFE)作为粘结相 ,通过填充一定配比的石墨、焦炭及碳黑制备了 3种树脂基复合材料电刷试样 ,并在 MM- 2 0 0型摩擦磨损试验机上对比考察了复合材料试样与铜对摩时的摩擦磨损性能 。
3.
The types of resin based absorbing composites were presented,such as carbon/thermoplastic resin based composite,fiber reinforced resin composites,resin based nanocomposite.
本文介绍了目前应用在吸波中的几种新型的树脂基吸波复合材料,如碳/热塑性树脂基复合材料、纤维增强树脂基复合材料、树脂基纳米复合材料。
4) polymer composites
树脂基复合材料
1.
Strength and modulus anisotropy of short fiber reinforced polymer composites;
短纤维增强树脂基复合材料强度和模量的各向异性
2.
As a result of the influence of moisture environments or other severe environments,the mechanical properties of polymer composites will deteriorate with time and make the actual reliability of them lower than that of the pre-designed reliability.
在潮湿环境及其他严酷环境作用下,树脂基复合材料结构的力学性能会逐步降低,使得材料的实际可靠度比预设计的可靠度低。
3.
The influence of low temperature plasma treatments on the chemical and mechanicalproperties of carbon fiber as well as carhon-fiber-reinforced polymer composites are described.
综述了低温等离子体处理对碳纤维(CF)及其增强树脂基复合材料(CFRP)的化学和机械性能的影响,同时也探讨了等离子体技术在纤维复合材料应用中存在的问题和研究方向。
5) resin-based composites
树脂基复合材料
1.
Research progress of effect of temperature on properties of resin-based composites
关于温度对树脂基复合材料性能影响的研究进展
2.
This paper summarizes recent progress in production and studies of resin-based composites and its resin matrixes.
综述了现代树脂基复合材料及其基体树脂的工业和研究进展概况。
3.
The article analyses the general situation of resin-based composites industry in the important production countries, discusses the developing road of composites industry to face the economic construction strengthening the technical development, developing the multifunctional, lower cost composites, new products.
根据世界各国近10年来树脂基复合材料的生产及应用情况,论述了加速研究开发多功能、低成本复合材料新产品并形成产业化是21世纪复合材料工业发展的必由之路。
6) resin matrix composites
树脂基复合材料
1.
Study of resin matrix composites reinforced by carbon fiber;
碳纤维增强树脂基复合材料的应用研究
2.
NiTi fiber surface treatment and the interfacial property of NiTi fiber resin matrix composites;
NiTi纤维表面处理及其树脂基复合材料的界面特性
3.
Several methods charactering upper limit working temperature of resin matrix composites are discussed.
本文讨论了表征树脂基复合材料上限工作温度的几种方法。
补充资料:室温固化树脂基复合材料
分子式:
CAS号:
性质:于室温下固化成型的树脂基复合材料。常用的树脂有不饱和聚酯和环氧树脂。低分子量聚酰胺对固化产物有增韧作用,是一种理想的室温固化剂。这类复合材料工艺简单,无需加热设备,适用于制造大型制件。固化完全则需较长时间(≥5天),有时还需要在较高温度(60~80℃)下进行后处理。制品有较好的物理、化学及机械性能,但一般只能在室温或者较高温度下使用。一般成型方法有接触成型(手糊)和喷射成型等。适用于大型结构件(如车射、船体等)及在地耐湿性无太高要求的零部件,广泛用于机械、交通运输、化工石油和航空航天工业领域中。
CAS号:
性质:于室温下固化成型的树脂基复合材料。常用的树脂有不饱和聚酯和环氧树脂。低分子量聚酰胺对固化产物有增韧作用,是一种理想的室温固化剂。这类复合材料工艺简单,无需加热设备,适用于制造大型制件。固化完全则需较长时间(≥5天),有时还需要在较高温度(60~80℃)下进行后处理。制品有较好的物理、化学及机械性能,但一般只能在室温或者较高温度下使用。一般成型方法有接触成型(手糊)和喷射成型等。适用于大型结构件(如车射、船体等)及在地耐湿性无太高要求的零部件,广泛用于机械、交通运输、化工石油和航空航天工业领域中。
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