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
- Occurrence and Crystal Structure of Zr-Ni Phases in the Zr-Mn-V-Ni Laves Phase Hydrogen Storage Electrode Alloys
Zr-Mn-V-Ni储氢电极合金中的Zr-Ni相形成及其晶体结构研究 - Convergent beam electron diffraction study of C14 type Laves phase in GH 302 alloy
GH302合金中C14型Laves相的会聚束电子衍射研究 - 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; - The size, amount and morphologies of MC type carbides and Laves phase had no remarkable change after grain refinement.
MC型碳化物和Laves相的尺寸、数量和形貌在晶粒细化前后变化不大。 - 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。 - The hardness and brittleness of ZrCr_2 Laves phase decrease, the fracture toughness is enhanced with the addition of alloying elements V, Nb and Mo, which implies that alloying has a softening effect on the mechanical properties of the ZrCr_2 Laves phase.
添加合金元素V、Nb和Mo使ZrCr2Laves相化合物硬度及脆性度降低,断裂韧度显著提高,即合金化对ZrCr2Laves相起软化作用。 - The Development of Zr-Based Laves Phase Hydrogen Storage Eleetrode Materials
锆系Laves相贮氢电极材料的研究进展 - 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。 - Analysis of Micro Melting Model and Melting of MgCu_2 Type Laves Phase
MgCu2型laves相的微观熔化模型与熔化的电子理论分析 - 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。