1.
In Situ Investigation on Plastic Deformation and Cracking of Metals under TEM/SEM;
金属塑性变形与断裂的TEM/SEM原位研究
2.
Stresses applied to plastically deform the metal are usually compressive.
适用于金属塑性变形的应力通常都是压应力。
3.
The Impact of the Outer Region on the Plastic Deformation Force of Metals and Its Essence
外区对金属塑性变形力的影响及其实质
4.
The Experiment and Study on the Technology of Physical Modeling of Plastic Metal Forming Processes Using Chromatic Clay as Model Material;
陶土彩泥试样模拟金属塑性变形技术的实验研究
5.
Palstic Deformation Mechanism and Microstructure Evolution of Nanocrystalline Nickel;
纳米金属镍的塑性变形及微结构演变
6.
Plastic Deformation and Nanocrystallization of Metallic Materials at High Strain Rate
金属材料的高应变率塑性变形及纳米化
7.
plastic analysis of metal forming
金属成形的塑性分析
8.
The plastic deformation of a metal at a temperature below that at which it recrystallizes.
金属在再结晶温度以下进行的塑性变形。
9.
Theoretical Model of Large Plastic Deformation Problem of Axial Symmetry Metal
轴对称金属塑性大变形问题的理论模型
10.
Application of Element-free Galerkin Method to Metal Elasto-plastic Large Deformation Problems
无网格Galerkin法在金属弹塑性大变形问题中的应用
11.
Measurement of strain distribution and matal flow in plastic bulk deformation
塑性体积成形中金属流动及应变分布的测试
12.
Preparation of metallic samples with slip band during cold plastic deformation and experimental performance
金属冷塑性变形滑移带样品制备及实验运行
13.
Plastic Deformation, Glass Transition, and Prediction of Glass Transition Temperature for Metallic Glasses
金属玻璃的塑性变形、玻璃转变以及对玻璃转变温度的预测
14.
The capacity of a material, such as plastic or metal, to return to a previous shape after deformation.
弹性,恢复能力物质变形后恢复原来形状的能力,如塑料或金属
15.
A Calculation of the Deformation Force in a Rectangular strip cf Metal in the Co mpressed Superplastic Statc
在金属超塑性压缩状态下矩形条料的变形力计算
16.
Metals do not change their form as easily as plastic bodies do.
金属不像塑料物体那样容易变形。
17.
Experimental study on a plastic deformation energy absorber filled with aluminum foam in a thin-walled metal tube
泡沫铝填充薄壁金属管塑性变形缓冲器吸能特性的试验研究
18.
MEASURING PLASTIC DEFORMATION ON A METAL SURFACE AND DETERMINING THE ELASTO-PLASTIC BOUNDARY FROM THE CHANGE OF LASER-PRODUCED DIFFRACTION PATTERNS
利用激光衍射谱的变化测量金属表面的塑性变形并确定其弹塑性区交界