说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> 离异共析
1)  divorced eutectoid transformation
离异共析
1.
The spheroidizing annealing technologies were proposed with aid of calphad technique to process two kinds of UHCs through the divorced eutectoid transformation mechanism of the austenite of inhomogenous carbon concentration, which consist of austenitizing at intermediate temperature in three phases (γ(fcc)+α(bcc)+cem) equilibrium aera and soaking below the eutectoid transformation temperature.
利用碳浓度不均匀奥氏体离异共析转变机制 ,借助于相图计算技术 ,对UHCs 1 0Al(含Al 1 0 %wt % )和UHCs 1 5Al(含Al1 5wt % )两种锻造超高碳钢提出了在三相区奥氏体化并在共析转变温度低限等温球化工艺 ,并对不同球化组织的力学性能进行了测定。
2.
The microduplex structure formed by divorced eutectoid transformation demonstrated the best properties,with the yield strength of about 480MPa, the tensile strength of about 850MPa,the uniform elongation of about 11%and the total elongation of about 21%.
基于离异共析转变获得的超细化复相组织具有最好的综合力学性能,屈服强度约为480 MPa,抗拉强度约为850 MPa,均匀伸长率约为11%,总伸长率约为21%。
2)  Carbides Isolation Eutectoid
碳化物离异共析
3)  divorced eutectic
离异共晶
1.
The second-phase is mainly divorced eutectic β phase in the Mg-Al based alloys.
Mg-Al系镁合金中的第二相主要是离异共晶β相,其含量、形状、分布和大小对合金的力学性能和成形有很大的影响。
2.
Microstructure within the fusion zone consisted of the γ′ matrix and Ni 5Zr in the interdentric regions,which were the products of divorced eutectic reaction between γ phase and Ni 5Zr at elevated temperature.
对焊缝金属进行显微分析后发现:室温下凝固组织由基体γ′相和晶间Ni5Zr相组成,它们是高温下γ相与Ni5Zr相离异共晶反应的产物。
3.
The results show that,Al-Mg-Zn filler metal reacting with the base metal AZ31B,and α-Mg+β-Mg17(Al,Zn)12 divorced eutectic structure is formed in the brazed joint.
结果表明,在钎焊接头的钎缝中钎料与母材AZ31B发生反应生成离异共晶组织-αMg+-βMg17(Al,Zn)12,母材AZ31B的显微硬度最低,钎缝中的-βMg17(Al,Zn)12相显微硬度最高。
4)  co-segregation analysis
共分离分析
1.
Screen some mutants to do a co-segregation analysis.
本研究通过对部分转化中花11号产生的T-DNA插入突变体进行了筛选、鉴定和共分离分析,以及对其中一个多性状突变体P1308进行了定位。
5)  α(Al)-CuAl2 divorced eutectic
α(Al)-CuAl2离异共晶
6)  Separation and analysis of copolymer
共聚物的分离分析
补充资料:共析点

eutectoidpoint:相图内代表共析成分和共析温度的点。

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