laves
英 [leɪvz]
美 [leɪvz]
v. 洗涤;沐浴;冲刷(缓慢)流过(经)
lave的第三人称单数
双语例句
- The effect of increasing W content on the precipitation behaviour is revealed not only to promote formation of Laves phase Fe_2 W and increase of total amount of precipitates, but also to accelerated the coarsening of precipitate after annealed on high temperature reheating.
钨量的增加对析出行为有两方面的作用:促进Fe2W型Laves相的形成并增加析出相总量;加速了回火后在高温加热过程中析出相的粗化。 - Effect of Heat Treatment on properties of Ti-Mn based Laves Phase Hydrogen Storage Alloys
热处理对Ti-Mn基Laves相贮氢合金性能的影响 - The results show that a lot of intermetallic compounds(μ phase and Laves phase) and carbides ( MC, M 23 C 6 and M 6C) precipitated at same time from the alloy after solution treating and aging.
结果表明,经过固溶和时效处理后合金中同时析出大量金属间化合物和碳化物。金属间化合物主要为μ相和Laves相,碳化物主要为MC、M23C6和M6C。 - The effects of the Ti/ Zr ratio and Mn/ Cr ratio on the hydrogen storage properties of Ti Mn based laves phase hydrogen storage alloys were investigated.
研究了不同的Ti/Zr比以及Mn/Cr比对Ti-Mn基Laves相贮氢合金贮氢性能的影响; - First-principles study of elastic properties and stacking fault energies of ZrCr_2 Laves phase
ZrCr2Laves相弹性性质和堆垛层错能的第一性原理计算 - Effect of alloying elements on phase composition of ZrMn_2-based Laves phase hydrogen storage alloys
合金化对ZrMn2基Laves相贮氢合金相组成的影响 - The optimized low temperature annealing time for Laves phase Cr_2Nb synthesized by thermal solid phase reaction provide possibility for preparing both high strength and toughness Cr_2Nb alloy or Cr_2Nb-based composite with micro-/ nano-grains by a process of mechanical alloying followed by a hot pressing or sintering.
优化出的Cr2Nb固相热反应合成低温退火时间,为通过MA+热压(或烧结)工艺路线制备出具有微/纳米晶结构的高强高韧Cr2Nb合金或Cr2Nb基复合材料提供了可能性。 - Defect structure in NbCr_2 Laves-phase intermetallics and its toughening effect
Laves相NbCr2金属间化合物的缺陷结构及其韧化效应 - The main reason of rapidly quenched having a different influence on the initial activation capabilities of AB_2 Laves phase electrode alloys was the quantities of the amorphous formed by rapid quenching in alloys were different.
快淬使AB2型电极合金活化性能发生变化的根本原因是合金中形成了不同量的非晶相。 - It is found by XRD analysis that the alloy mainly consists of C14 Laves phase with hexagonal structure and V-based solid solution phase with BCC structure. The rapid solidification leads to the decrease in content of the C14 Laves phase in the alloy.
XRD研究表明:合金主要由六方结构的C14Laves相和体心立方结构的钒基固溶体相所组成,快速凝固减少了合金中C14Laves相的含量。