1) martensitic transformation
马氏体相交
2) martensite
[英]['mɑ:tən,zait] [美]['mɑrtən,zaɪt]
马氏体相
1.
The results show that martensite is formed when quenched at higher temperature and the microstructure of plate-like martensite consists of stacking faults.
5A1(wt%)的合金在高温直接淬火时发生马氏体相变,马氏体形态为板条状,亚结构为堆垛层错。
3) martensitic transformation
马氏体相变
1.
Experimental study of martensitic transformation plasticity for armour steel;
装甲钢马氏体相变塑性的实验研究
2.
Surface relief characteristics of martensitic transformation in a Fe-based shape memory alloy;
Fe-Mn-Si形状记忆合金马氏体相变宏观形状应变特征
3.
Effect of external stress and magnetic field on martensitic transformation of bonded Ni_(52)Mn_(24.4)Ga_(23.6) alloy;
外应力及磁场对粘接Ni_(52)Mn_(24.4)Ga_(23.6)合金马氏体相变的影响
4) martensite transformation
马氏体相变
1.
Thermal-induced martensite transformation in 304 austenitic stainless steel;
304奥氏体不锈钢热诱发马氏体相变研究
2.
Effect of Cu on Strain-Induced Martensite Transformation in 304 Austenite Stainless Steel;
Cu对304奥氏体不锈钢应变诱发马氏体相变的影响
3.
By means of X-ray diffraction technique,the effect of C,Cr,Ni and Mn on deformation-induced martensite transformation in 304 austenitic stainless steel was investigated.
用X射线衍射技术研究了304奥氏体不锈钢变形诱发马氏体相变倾向对成分的敏感性。
5) martensite phase transformation
马氏体相变
1.
The martensite phase transformation behavior of multiaxial forged Fe-32%N alloy at the temperature of 550 ℃ and a strain rate of 2×10-2 s-1was studied.
研究了Fe-32%Ni合金在形变温度550℃、形变速率2×10-2s-1的实验条件下,经过多道多向锻压变形后奥氏体的马氏体相变过程。
2.
Martensite content of AISI304 stainless steels cold-worked at different temperatures, ways and degrees of deformation was examined by ferrmagnetometer, which was used to study the relations between cold working and martensite phase transformation.
在不同温度下对AISI30 4不锈钢进行不同方式、不同程度冷加工 ,用铁素体测量仪测定马氏体相变量 ,研究了冷加工与马氏体相变的关系 ;将AISI30 4不锈钢在低温 (液氮 ,- 70℃ )条件下进行不同程度拉伸 ,采用透射电镜观测位错分布 ,研究了冷加工与位错密度的关系。
3.
This equation reflects the special character of martensite phase transformation well.
该方程能较好地反映马氏体相变特征。
6) martensite phase change
马氏体相变
1.
The paper researched the effect of Cu addition on Ti36Ni49-xHf15Cux(x=1,3,5,8)alloy martensite phase change by means of differential heat scan analysis,X ray diffraction and transmission electron microscope.
通过差热扫描分析、X射线衍射和透射电镜等方法研究了Cu的添加对Ti36Ni49-xHf15Cux(x=1,3,5,8)合金马氏体相变行为的影响。
2.
The paper researches the effect of Cu addition on Ti36Ni49-xHf15Cux(x=1,3,5,8)alloy martensite phase change by means of differential heat scan analysis, X ray diffraction.
通过差热扫描分析、X射线衍射等方法研究了Cu的添加对Ti36Ni49-xHf15Cux(x=1,3,5,8)合金马氏体相变行为的影响。
3.
Three kinds of martensite phase change mechanism,Which are heat induction,stress induction and strain induction martensite change,and the mechanical behavior of NiTi alloy are discussed.
介绍NiTi形状记忆合金的发展概况 ,论述NiTi合金的热诱发、应力诱发和应变诱发 3种马氏体相变机制及其力学行为 ,介绍了形状记忆效应和超弹性现象 ,分析了第三元素对NiTi合金马氏体相变的影
补充资料:奥氏体-贝氏体球铁
分子式:
CAS号:
性质:又叫奥-贝球铁。基体组织为奥氏体加贝氏体组织的球墨铸铁。这类球铁硅含量一般在1.4%~3.8%。含锰量小于0.5%,与普通球铁比较硅偏高、锰偏低。通过调节化学成分与热处理获得理想的奥-贝球铁的基体组织为针状贝氏体或无碳贝氏体一富碳奥氏体。这类球铁具有优良的综合机械性能、强度高、耐磨性好、韧性好、特别是有高的缺口韧性,可代替钢,用于制作重要受力结构件,如曲轴、齿轮、凸轮轴等。
CAS号:
性质:又叫奥-贝球铁。基体组织为奥氏体加贝氏体组织的球墨铸铁。这类球铁硅含量一般在1.4%~3.8%。含锰量小于0.5%,与普通球铁比较硅偏高、锰偏低。通过调节化学成分与热处理获得理想的奥-贝球铁的基体组织为针状贝氏体或无碳贝氏体一富碳奥氏体。这类球铁具有优良的综合机械性能、强度高、耐磨性好、韧性好、特别是有高的缺口韧性,可代替钢,用于制作重要受力结构件,如曲轴、齿轮、凸轮轴等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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