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
- 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。 - Besides, the effects of both valence charge and atomic radius on Laves phase structures are in opposition to each other in transition-lanthanide ( actinides) alloys.
对过渡-镧系(锕系)元素组成的合金,B原子的价电子数对其Laves相结构影响最为明显,且价电子和原子半径对Laves相结构的影响作用互为反向。 - 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 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。 - Electronic Structure and Mechanical Properties of Mg-Al-Ca Laves Phase and Mg-Al-Sb Alloys
Mg-Al-CaLaves相和Mg-Al-Sb合金的电子结构和力学性能 - The latest progress in RE series, AB 2 type Laves phase, BCC solid solution type and Mg based hydrogen storage alloy were surveyed.
对稀土基、AB2型Laves相、BCC固溶体型以及Mg基储氢合金的最新进展进行了简要综述; - 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 - Study on Ti/ Mn-Based Laves Phase Hydrogen Storage Alloys
Ti/Mn基Laves相贮氢合金的研究 - Effect of Mechanical Alloying on Oxidation Behavior at 1100 ℃ of Laves Phase NbCr_2 Alloys by Hot Pressing Synthesis
机械合金化对热压合成Laves相NbCr2合金1100℃氧化行为的影响 - The effects of rapid quenching on the initial activation capabilities of AB_2 Laves phase electrode alloys were investigated comprehensively. The phase structures and morphologies of as-cast and quenched alloys were determined and observed by XRD and SEM.
研究了快淬处理对AB2型Laves相电极合金初始活化性能的影响,用XRD和SEM分析了铸态及快淬态合金的相结构,并观察了合金的微观组织形貌。