1.
Microstructure Characterization of Twinning Under Impact Loading for AZ31B Magnesium Alloys
冲击加载条件下AZ31B镁合金变形孪晶的微观特征
2.
Annihilation of Deformation Twins and Formation of Annealing Twins
形变孪晶的消失与退火孪晶的形成机制
3.
TWINNING AND TWIN INTERSECTION IN AZ31 Mg ALLOY DURING WARM DEFORMATION
镁合金温变形过程中的孪生及孪晶交叉
4.
Formed by the process of twinning. Used of crystals.
孪晶由孪晶过程形成的。用于晶体
5.
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
6.
Microstructure and Mechanical Properties of Fe24Mn0.5C TWIP Steel
Fe24Mn0.5C形变孪晶诱发塑性钢的显微组织和力学性能
7.
Epitaxial Growth of ZnO Films and the Form of the Twin Domains
ZnO外延薄膜的制备及孪晶的形成
8.
Formation Mechanism of Twins in AZ61 Magnesium Alloy during Aging
时效处理AZ61铸造镁合金中孪晶的形成机理
9.
Twinning Deformation and Plasticity and Toughness of α-Titanium Alloys;
α钛的孪生变形及其塑性韧性的研究
10.
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
11.
Selection law of deformation twinning variants at elevated temperature in Mg-RE alloy
稀土镁合金高温形变孪生变体的选择规律
12.
The formation of twin structure depends on the slip of stacking fault for nucleating and extending.
孪晶结构的形成依靠堆垛层错的滑移运动而形核和扩展.
13.
Effect of slip and twinning systems on the polycrystal plastic model for magnesium alloy
基于滑移/孪生耦合模型的镁合金多晶体塑性成形分析
14.
grow as twins, of crystals.
水晶像孪生一样生长。
15.
EFFECT OF TWIN LAMELLAR THICKNESS ON THE FATIGUE PROPERTIES OF NANO-TWINNED Cu
孪晶片层厚度对纳米孪晶Cu疲劳性能的影响
16.
Two area defects are twins and grain boundaries.
有两种面积缺陷,即孪生和晶粒间界。
17.
Simpleness of Indexing F.C.C Twin Diffraction Patterns;
f.c.c孪晶衍射花样指标化的简化
18.
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