马氏体

而工艺c使已转变的马氏体和贝氏体产生自回火。

And the transformed martensite and bainite are self tempered by process c.

低层错能钢中ε马氏体的X射线分析

X-Ray Analyses of ε - Martensite in Low SFE Steel

Ni（18）CO－9Mo5Ti马氏体时效钢的金相组织与性能

Metallographic Structure and Properties ofNi ( _18 ) Co_9Mo_5Ti Maraging Steel

训练及热循环对CuZnAl合金马氏体形态的影响

Effects of Training and Thermal Cycling on the Martensite Morphologies in a Cu-Zn-Al Alloy

Cu－Zn－Al合金中马氏体的有序化

Ordering in martensite of a Cu-Zn-Al Alloy

Fe－Mn－Si－Ni－Co合金中形变应力诱发ε马氏体的稳定化及其对记忆效应的影响

The Stabilization of Deformed Stress-Induced ε Martensite and its Effect on Shape Memory Effect in an Fe-Mn-Si-Ni-Co Alloy

Fe和Co对Ni2MnGa合金（110）马氏体孪晶界面电子结构的影响

Effect of Fe and Co on the electronic structure of ( 110 ) martensite twin boundary in Ni_2MnGa alloy

体系的共格界面能作为马氏体相变临界驱动力ΔGγ→εMs中的阻力项所占的比例小于10%。

The interfacial energy as a resistance of martensitic transformation is less than 10 % of the critical driving force .

马氏体时效钢中Ti（C、N）含量的增加会降低其断裂韧性与面缩率。

The reduction of area and fracture toughness increase with decreasing the content of Ti ( C , N ) in maraging steels .

带热浸铝涂层MANETⅡ马氏体钢的氢渗透性能研究

Hydrogen Permeation through MANET ⅱ Steel with Hot Dipping Aluminized Coating

M2高速钢马氏体-贝氏体复相热处理

Study on Dual-phase Heat Treatment of Martensite and Bainite of the M2 High Speed Steel

冷却速度对Fv520（B）钢马氏体组织的影响

Effect of Cooling Rate on Martensite Microstructure of Fv520 ( B ) Steel

γ（fcc）→α（bcc）马氏体相变表面浮凸的AFM观察与定量分析

AFM Observation and Quantitative Analysis of γ( fcc )→α( bcc ) Martensitic Surface Relief

Fe-Mn（Cr）-C系合金马氏体的价电子结构分析

Analysis on Valence Electron Structure of Alloying Martensite for Fe Mn ( Cr ) C

为了便于设计石油膨胀管材料，推导了铁基合金ε马氏体的相变起始温度Ms（ε）的计算公式。

In the end , the equation for calculating the initial transformation temperature Ms (?) of the ε martensite of the Fe-based alloy is derived .

研究结果表明，间隙元素C、S、N、O与其它杂质元素对马氏体时效钢的韧性与塑性的影响很大。

The experimental results showed that interstitial elements such as C , S , N , O and other impurity elements have great influences on ductility and toughness of maraging steels .

由于V4C3沿奥氏体的晶体缺陷析出，故这些缺陷将遗传至马氏体中。

Because the V_4C_3 precipitated along the crystalline defects in austenite , they could be inherited to martensite .

对马氏体球墨铸铁在不同pH值石英砂浆中的静载三体腐蚀磨损特性进行了试验研究，并与低铬白口铸铁进行了对比。

The three body corrosion wear behaviors of martensitic ductile iron and low chromium white cast iron under the test conditions of different pH value slurries have been studied .

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

Effect of external stress and magnetic field on martensitic transformation of bonded Ni_ ( 52 ) Mn_ ( 24.4 ) Ga_ ( 23.6 ) alloy

裂纹对NiAl马氏体相变影响的微观机理

Microscopic mechanism of influence of crack on NiAl martensitic transformations

γ（fcc）→ε（hcp）马氏体相变切变角的原子力显微镜测定方法

Method of γ( fcc )→ε( hcp ) Martensitic Transformation Shear Angle Determination by Atomic Force Microscope

二次硬化效应与残余奥氏体在回火过程中转变为马氏体和马氏体基体中析出细小弥散的Mo2C和VC有关。

Secondary hardening is related to the transformation of the residual austenite into martensite and the precipitation of the fine and dispersed Mo_2C and VC .

Cu-Zn-Al合金马氏体在稳定化过程中的反常浮凸

Relief phenomenon of stabilized martensites in a Cu Zn Al alloy

Cu-Zn-Al合金马氏体稳定化与母相有序态

Stabilization of martensite and parent phase ordering in a Cu-Zn-Al Alloy

结果表明，合金的马氏体相变开始温度可达212°C，合金在马氏体及奥氏体状态下具有不同的屈服强度及形变强化能力。

The result shows that the martensite start transformation temperature is determined as 212 ° C . The specimens in martensitic and austenitic state yield at different stress level and show different strain hardening ability .

Dy对多晶Ni（52）Mn（24.7）Ga（23.3）合金马氏体相变和磁感生应变的影响

Effect of Dy on Martensitic Transformation and Magnetic-Field-Induced Strain in Polycrystalline Ni_ ( 52 ) Mn_ ( 24.7 ) Ga_ ( 23.3 ) Alloy

空冷淬火Cu-Zn-Al合金马氏体结构及稳定化现象

Martensite Structure and Stabilization Phenomenon of Air Quenched Cu Zn Al Alloy

多晶Cu-Zn-Al合金变形过程中马氏体的精细结构变化

Fine structure variation of polycrystalline Cu-Zn-Al shape memory alloy under martensite deformation

Fe-Ni合金中奥氏体的有序化对马氏体相变的影响

Effect of austenite ordering on Martensitic Transformation in Fe-Ni alloys

Cu-Zn-Al合金中热弹马氏体稳定化原因的正电子湮没研究

A Study of Thermoelastic Martensite Stabilization by Positron Annihilation