1.
The main cause of low impact toughness is that following the long cooling time, the structure becomes coarsing and appears corse-grained twin-mastensite.
冷却时间长,显微组织粗化,出现粗大孪晶马氏体,这是影响韧性低的主要原因。
2.
Research on the Mechanism of the Twin Boundary Motion of Ni-Mn-Ga Single Crystals and the Simulation of Stress-induced Martensitic Transformation;
单晶Ni-Mn-Ga孪晶界迁动机制研究及应力诱发马氏体相变模拟
3.
The EDP Characteristics of Martensite Twin Substructure in High Carbon Steel
高碳钢马氏体中孪晶亚结构的电子衍射花样特征
4.
Refinement mechanism of twins in austenitic stainless steel by equal channel angular pressing
等通道挤压变形奥氏体不锈钢中孪晶细化机理
5.
Formed by the process of twinning. Used of crystals.
孪晶由孪晶过程形成的。用于晶体
6.
THE EFFECT OF PRIOR AUSTENITIC GRAIN BOUNDARIES ON NUCLEATION OF(225)_γ MARTENSITE IN STEELS
钢中原始奥氏体晶界对(225)_γ马氏体形核的影响
7.
Aging Behavior and Grains Refining of 3J33 Maraging Steel
3J33马氏体时效钢时效行为及晶粒细化
8.
Grain Boundary Martensite Formation and Tempering Brittleness at Low Temperature of Steels
钢的晶界马氏体形成与低温回火脆性
9.
Research on the Grain Ultra-refinement in Austenite by Dynamic Recrystallization and Its Martensitic Transformation;
奥氏体动态再结晶晶粒超细化及其马氏体相变研究
10.
AFM Observation on Martensitic Surface Relief and Research on Its Crystallography and Morphology;
马氏体表面浮凸AFM观察及晶体—形态学研究
11.
Two interwoven crystals that are mirror images of each other.
孪晶相互为翻版的两个相互交错的晶体
12.
ON REDUCTION OF THE HIGH ORDER TWINNING IN FCC STRUCTURE TO A SINGLE ROTATION RELATIONSHIP
面心立方晶体高次孪晶化为一次旋转对称关系
13.
THE STUDY ON THE NUCLEATION OF MARTENSITIC TRANSFORMATION AND LATH WIDTH NANOMETRE IN STEEL;
钢的马氏体相变形核与板条晶宽纳米化研究
14.
Research on grain refining of 18% Ni maraging stell hot extrusion tube
18%Ni马氏体时效钢热挤压管晶粒细化的研究
15.
Molecular dynamics simulation of stress-induced martensitic phase transformation in NiAl
应力诱发NiAl单晶马氏体相变的分子动力学模拟
16.
Relationship Between Grain Size and Aging Behavior of Co-Free Maraging Steel
T250马氏体时效钢晶粒尺寸对时效析出的影响
17.
Gross crystalline imperfections like twinning are apparent to the unaided eye.
粗的晶体不完整性,如孪生体可用肉眼看出。
18.
ELECTRON DIFFRACTION ANALYSIS OF THE TWIN AND HCP PHASE FORMED IN A FCC CRYSTAL
面心立方晶体中生成孪晶或六角密堆相的电子衍射分析