The reason for axial snap-back is that the recovery of axial elastic strain is faster than the increase of axial plastic strain.
轴向回跳的原因是轴向弹性应变的恢复快于轴向塑性应变的增加。
The plastic axial strain increases and strength decreases as water content increases.
随着含水量增加,土样的塑性应变量增加,强度减小。
Distribution of temperature, equivalent plastic strain and radial and axial rolling force have been quantitatively analyzed in the whole process.
定量分析了整个轧制过程环件内的温度、等效应变、双向轧制力的分布和演化情况。
The billet deformation behavior, the magnitude and distribution of effective strain and damage value were investigated by rigid-plastic finite element method during multi-axial compressions.
采用刚塑性有限元法研究了多轴压缩过程中的坯料变形行为、等效应变大小、分布以及损伤值。
Firstly, dissipated energies induced by axial and lateral plastic deformations due to shear strain localization initiated at peak strength in strain softening stage is analyzed.
首先,由于在应变软化阶段的峰值强度的剪切应变局部化启动的纵向和横向的塑性变形引起的耗散能进行了分析。
The influence of axial force on the elastic-plastic stretch bending and sprngbackof a sheet metal is examined and a method to calculate the strain of middle layer is also given.
通过对带钢横截面上应力状态的分析,研究了纵向拉力对带钢变形的影响,给出了计算带钢中性层应变的方法。
The influence of axial force on the elastic-plastic stretch bending and sprngbackof a sheet metal is examined and a method to calculate the strain of middle layer is also given.
通过对带钢横截面上应力状态的分析,研究了纵向拉力对带钢变形的影响,给出了计算带钢中性层应变的方法。
应用推荐