1) matensite plate
马氏体片
1.
We confirm that dislocations have much effect on the matensite transformation and the microcrack will be induced by the stress concentration among the matensite plates.
59%(原子分数)Ni形状记忆合金用扫描电镜(SEM)观察了其断口组织形貌,发现了韧窝、撕裂带,认为该合金具有一定的韧性;用透射电镜(TEM)观察了合金的内部组织结构,发现了位错塞积、形变亚晶界、马氏体片以及孪晶,认为位错对合金的马氏体相变具有重要的作用,马氏体间的应力集中将产生微裂纹。
2) plate martensite
片状马氏体
1.
TEM analysis of plate martensites and bainites in 35CrMnSiA steel;
35CrMnSiA钢片状马氏体和贝氏体TEM研究
2.
It is found that the packet martensite formed in medium and high carbon stee ls quenched from high temperature is not lath martensite, but rather fine plate martensite.
用光学显微镜和扫描电镜观测了 12种中碳和高碳钢淬火组织形态 ,证明了中碳和高碳钢在高温淬火后形成的束状组织不是板条马氏体 ,而是片状马氏体。
3) martensitic plate
马氏体片层
4) single plate like ε martensite
单片状ε马氏体
5) martensite
[英]['mɑ:tən,zait] [美]['mɑrtən,zaɪt]
马氏体
1.
Effect of deformation on the temper process of lath martensite;
形变对板条马氏体回火组织的影响
2.
Cold rolling deformation and recrystallization behavior of martensite Ni_(40.5)Co_(32.5)Al_(27) alloy;
Ni_(40.5)Co_(32.5)Al_(27)马氏体合金的冷变形和再结晶行为
3.
Influence of heat treatment on the properties of the heat-resistance martensite stainless steel 0Cr_(17)Ni_4Cu_4Nb;
热处理对耐热马氏体不锈钢0Cr_(17)Ni_4Cu_4Nb性能的影响
6) martensitic steel
马氏体钢
1.
The microstructure and mechanical properties of China low activation martensitic steel;
低活化马氏体钢的微观结构与力学性能
2.
Introduces forging technology and matters needing attention of valve of martensitic steel 4Cr 10 Si 2Mo, analyses the reason that the steel can ’t be cooled by air, compares forging characteristics with valve of austenitic steel 4Cr 14 Ni 14 W 2Mo and come to the feasiblity of new technology of valve adopting direct extrusion.
介绍了马氏体钢4Cr10Si2Mo气阀的锻造工艺及生产中的注意事项,分析了这种钢不能采用空冷的原因,并且与奥氏体钢4Cr14Ni14W2Mo气阀的锻造特点进行了比较,提出了气阀生产新工艺———正挤压的可行性。
3.
n this research, the characteristic of martensitic steel in abrasion was investigated by using three different test methods.
98%4种合碳量马氏体钢的磨料磨损特性进行了考察。
补充资料:片状马氏体
platemartensite:其单个晶体的立体形貌多呈双凸透镜状,故称“透镜状马氏体”。
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