1.
Analysis of rheological properties and flow characteristics of yield pseudoplastic gel simulation in tubes
屈服假塑性凝胶模拟液直圆管流变和流动特性分析
2.
yield pseudo plastic
有屈服点的拟塑性体
3.
Yielding strength is indicative of the stress at which plastic deformation begins.
屈服强度是指塑性形变开始发生时的应力。
4.
A plastic constitutive model for concrete with zero value of initial yield stress under triaxial compressive loading condition
零屈服应力下混凝土三轴受压塑性模型
5.
The yield point represents the dividing line or transition from the elastic to the plastic region of the curve.
屈服点是弹性变形区域到塑性变形区域之间曲线的过渡点。
6.
Influence of seepage effect on solutions for elastic and plastic around an opening based on generalized nonlinear yield criterion
渗流效应对基于广义非线性屈服准则洞室弹塑性解的影响
7.
Effect on plastic strain through the non-smoothness management of corner singularity
屈服面角点奇异性的非平滑处理对塑性应变的影响
8.
For metals, the phenomenon of yielding occurs at the onset of plastic or permanent deformation.
金属的屈服是指塑性或者永久形变开始发生的现象。
9.
Dynamic Response of Elasto-viscoplastic Porous Media on Different Yield Function;
不同屈服准则下的弹粘塑性多孔介质的动力学响应
10.
Experiment Research on Subsequent Yield Surface and Plastic Flow under Complex Loading of Polycrystalline Copper;
纯铜的后继屈服面及复杂加载下塑性流动试验研究
11.
The Mathematical and Mechanical Foundation of Generalized Plastic Mechanic and a Three Yield Surface Model for Soil;
广义塑性力学数学力学基础及一个土体的三屈服面模型
12.
SUBSEQUENT YIELD AND PLASTIC FLOW ANALYSIS OF POLYCRYSTALLINE COPPER UNDER BIAXIAL LOADING
多晶Cu在双向加载下的后继屈服与塑性流动分析
13.
Analysis of Crack Tip Plastic Zone for Composites under Small Scale Yielding
小范围屈服条件下复合材料裂纹尖端塑性区分析
14.
Perfect elastoplastic solution of axisymmetric circular openings in rock mass based on Levy-Mises constitutive relation and D-P yield criterion
基于Levy-Mises本构关系及D-P屈服准则的轴对称圆巷理想弹塑性解
15.
A DOUBLE-YIELD SURFACE MODEL WITH REVISED PLASTIC WORK AS HARDENING PARAMETER AND ITS APPLICATION
采用修正塑性功硬化参数的双屈服面模型及应用
16.
Test Level and Problems of Plastics Tensile Property at Yield in China
我国塑料拉伸屈服性能的测试水平与存在问题分析
17.
Plastic deformation takes place first at the crack tip and spreads across the solid as the applied load is increased beyond general yielding.
塑性变形首先发现在裂纹顶端,当工作载荷超过了普通屈服时,则传播到物体中。
18.
A tension member may fail by plastic yielding.
拉伸元件可能由于塑性屈伏而破坏。