1) dispersion strengthening
弥散强化
1.
The results showed that the strengthening mechanism of the alloy as hot-extrusion was mainly dispersion strengthening and fine-crystal strengthening.
12Al2O3弥散强化铜合金的组织与性能。
2.
The contributions of Al2O3 particles to dispersion strengthening of the composites and the mechanisms of the nucleation, growth and coarsening of Al2O3 particles in dilute Cu - Al alloys during internal oxidation have been investigated.
Al2O3/Cu复合材料不仅具有和纯铜一样优良的导电、导热性能,而且由于弥散强化的作用使其拥有高的硬度和强度,特别是优越的高温强度,从而使其成为越来越重要的工程材料之一。
3.
solid solution strengthening, strain hardening, grain boundaries strengthening, dispersion strengthening, etc and the investigations on strengthening mechanism are reviewed.
回顾和总结固溶强化、形变强化、晶界强化及弥散强化等常用铂强化方法及其强化机制的研究进展 ,介绍典型强化铂材料如铂铑合金、ZGSPt(Pt Rh)、ODSPt(Pt Rh)和DPHPt(Pt Rh)等弥散强化材料的主要性能和用途 ,为选择和开发更好的铂强化方法、推动强化铂的应用提供参考。
2) Dispersion strengthened
弥散强化
1.
The development state,manufacture technology,microstructure and properties,application of oxide dispersion strengthened copper alloys are generally reviewed.
简要概述了氧化物弥散强化铜合金的发展状况、制备方法、组织和性能特点以及应用前景。
2.
So, in this paper, a new method of making dispersion strengthened copper matrix composites is tried to resolve the present problems.
弥散强化铜基复合材料以其优异的性能而有着广泛的应用前景。
3.
The article aim at developing a kind of copper alloy material with high strength and good electric conductivity-dispersion strengthened copper alloy.
本文的目的在于采用机械合金化的方法研制一种高强度、高导电性铜合金材料——弥散强化铜合金。
3) dispersion strengthen
弥散强化
1.
The processes to manufacture dispersion strengthened Cu-TiB_2 composites by in situ methods,such as liquid-solid,solid-solid and liquid- liquid methods,were introduced.
介绍了固-液,固-固,液-液原位复合法制备弥散强化TiB2/Cu复合材料,并归纳总结了弥散强化铜合金的强化机理与导电机制。
2.
With Cu_20 as oxidizer, Al_2O_3 surficial dispersion strengthened copper alloy of various concentration of aluminum were produced by internal oxidation in argon atmosphere(1123-1273 K, 10 - 96 h).
以Cu_2O为氧化剂,在氩气保护下对不同w(Al)的Cu-Al合金表面进行弥散强化(内氧化温度为1123-1273K,保温时间10-96h),并对内氧化层的组织形貌进行了研究。
3.
Al 2O 3 surface dispersion strengthening of Cu-Al alloy was conducted by internal oxidation in argon atmosphere with Cu 2O as oxidizer at 1123K~1273K for 10~96 h.
以Cu2 O为氧化剂,在氩气保护下用内氧化技术对不同低Al含量的Cu Al合金表面进行了弥散强化处理(内氧化温度为112 3~12 73K ,保温时间10~96h) ,研究了硬化层的组织形貌及性能。
4) dispersion-strengthened
弥散强化
1.
The microstructure of alumina dispersion-strengthened copper alloy are investigated using transmission electron microscopy(TEM) and high-resolution transmission electron microscopy(HRTEM),and the effect factors on the dispersoids are analyzed as well.
用透射电镜(TEM)、高分辨电镜(HRTEM)观察了Al2O3弥散强化铜合金的微观结构,并分析了影响弥散相大小及分布的因素。
6) strengthened steel
弥散强化钢
1.
The sliding friction and wear properties of the strengthened steel were studied using a block-on-ring apparatus.
用环-块摩擦磨损试验机研究了油润滑下弥散强化钢的滑动摩擦磨损性能,发现TiC颗粒承受载荷,从而可有效地提高弥散强化钢的耐磨性。
补充资料:弥散强化
弥散强化
disPersion strengthening
弥散强化dispersion strengthening利用外来化学惰性的弥散粒子来强化合金的方法。惰性粒子一般是高熔点的氧化物,主要使用的是ThOZ和YZO3两种。这些氧化物粒子常以粉末冶金方式加入金属中,不与基体金属发生任何化学反应,因此不同于普通合金中时效析出的第二相粒子。1960年,美国国际镍公司首先利用这种方法在镍中加入TllO2获得TDesNi合金。由于弥散强化合金的高温强度非常高,但中、低温强度比较低,而且成本较贵,因此目前只在高温合金中得到商业应用,用于制作高温导向叶片和燃烧室零件,也有努力试图用作涡轮叶片材料。 惰性弥散粒子对合金的强化作用分以下两种。①直接强化:弥散粒子对位错运动起势垒作用,一般用位错绕越机制来说明。其强化效果可用下式表示 △r一Gb/L式中G为切变模量,b为位错柏氏矢量,L为粒子间距。②间接强化:形变热处理过程中第二相粒子影响合金基体的显微组织,尤其是晶粒的尺寸和形状而起作用。细化晶粒的室温强化作用符合哈尔一配奇(Hall一Petch)关系。(朱耀宵张天相)
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