deformation twin

The preparation of zinc sample for the deformation twin

锌形变孪晶样品的制备

Effect of deformation twin on fracture mechanism of fully lamellar TiAl Alloys

形变孪晶对层状TiAl基合金断裂机制的作用

The Mechanism of Deformation Twin in WC Phase of Cemented Carbide

硬质合金中WC相的孪生变形机制

The thermoplasticity in a high temperature plastic zone was good because of the deformation twin formed in austenite grains .

在高温塑性区塑性良好是由于奥氏体晶粒发生大量的孪生变形；

Deformation twin and dislocation are observed at the interface of TiC particle and matrix due to the solidifying stress .

在凝固应力作用下，TiC颗粒与粘结金属界面之间存在孪晶和位错。

Interaction between precipitated v_4c_3 particles and deformation twin

V4C3质点与形变孪晶的交互作用

The intersecting of two deformation twin plates also brought about the formation of secondary austenite twin , but its formation mechanism may be different from that for the martensite intersecting . The detail is still under analysis .

在Al3钢中两个变形孪晶也同样在交叉处形成了二次奥氏体相，但它的形成机制与马氏体板条相交叉的机制不同，形成机理仍有待进一步研究。

The Analyses of The Cause and Solving Way of Tube Bending Deformation of Twin U Compact Fluorescent Lamp

紧凑型双U荧光灯弯管变形原因分析与解决方法

FEM Simulation and Analysis of Thick - plate Deformation Process in Twin - curvature Mould

厚板双曲率模冲压过程的数值模拟与分析

Effects of Twin Size on the dislocation configuration during cyclic deformation of polycrystalline twin copper

孪晶铜中孪晶尺寸对疲劳位错组态的影响

Abstract The analyses of deformation cause of twin U and twin π type glass tube of compact fluorescent lamp having been bent in the production , and some ways for solving this problem are introduced .

本文从理论上分析了紧凑型双U（π）荧光灯弯管变形的原因及影响因素，并提出了解决弯管变形的方法。

Thus microstructural features are characterized by wavy extinction , deformation pattern , deformation twin , sub-grain , core-mantle structure , deformation zone and so on .

显微构造特征可细分为波状消光、变形纹、变形双晶、亚颗粒、核幔构造、变形带等。

Systematic investigations on microstructure in 18-8 type austenitic stainless steel under low cycle fatigue deformation were made by TEM , including dislocation configurations in austenite , deformation twin , and deformation-induced martensite .

利用透射电镜系统地研究了18&8型奥氏体不锈钢在低周疲劳变形下的微观组织，包括奥氏体位错组态，形变孪晶和形变马氏体。