二相的 meaning in Chinese
binary
biphase
biphasic
diphase
quarter phase
quarter-phase
two phase
two-phase
Examples
- A model for fracture toughness of high strength aluminum alloys containing second particles of various sized scales
含有不同尺度量级第二相的高强铝合金断裂韧性模型 - The morphology of second phase in the alloy is not uniform if the alloy is preserved at the same temperature for the different time
熔体经过不同时间的保温,合金中第二相的形态发生了较大的变化。 - The basic results include three aspects : the interests of lithium ionic conductors focused on the simple compounds , solid solution ( substitution by aliovalent and isovalent ) and the small composites which mostly are al2o3 as the second phase and some simple compounds as the matrix
文献的基本结论是:对于锂离子导体的研究主要集中在单相化合物、固溶体(等价或异价取代)及少数以单一化合物为基、以al _ 2o _ 3等为第二相的复合体系。 - The research results show that , from the viewpoint of second phase morphologies , there exist quite differences between the grain - type materials ( such as wc / bcu brazing deposit material , wrs1000 and 1zt tungsten carbide strengthening overlaying material , as well as the wear - resistant material of polymer adhesive coating etc . ) , and the aggregation - type as well as dispersion - type ones ( such as zg35simn , wrd - 1 and khc - k2 depositing material ) in the wear - resistance and sand slurry abrasion mechanism . the sand slurry abrasion mechanisms are brought forward , of new wear - resistant materials with the features of grain - type second phase morphologies
研究发现,与聚合型、弥散型第二相的材料(如zg35simn 、 wrd ? 1和khc ? k2熔敷材料等)相比,颗粒型第二相的材料(如wc bcu钎焊熔敷耐磨材料、 wrs1000型耐磨材料、 1zt碳化钨颗粒增强熔敷材料及ktc ? 1耐磨胶粘涂层材料等)在耐磨性能和磨损机理等方面均有不同,总结提出了以“颗粒型第二相”为特征的耐磨新材料泥沙磨损机理。 - Based on the analyses on mechanical properties , microstructure and fracture of - the microalloyed steels socrv with various heat treatment technique , it can be affirmed that various fractures arttribute to various mechanism , we can draw conclusion that the strength and toughness of microalloyed steels 50crv will be increase simultaneously by optimal heat treatment technique . to illustrate the mechanism of the strength and toughness of microalloyed steels socrv , we designed the comparative experiment and observed the microstructure of the sample which occurred at different quench and tempering temperature and different tempering time . the last experiment results were determined by the four factors : fined microalloyed elements grains , the decompound of martensite , martensite transformation of remnant austenite and the second phase precipitation
为解释微合金化50crv钢强韧化机理,本文通过对不同淬火温度,回火温度,回火时间下的力学性能指标的对比及显微分析,认为微合金元素的细化晶粒,马氏体的回火分解,残余奥氏体的转变,第二相的沉淀析出共同决定了微合金钢的强韧化情况,特别是由于微合金元素的存在,其细化晶粒及其碳氮化物的沉淀析出,导致钢的良好的强韧性,并且如果工艺满足第二相的沉淀析出强化大于回火马氏体分解引起的软化效应,会在硬度曲线中产生明显的二次硬化现象。