The influence of peak ratchetting stress on ratchetting deformation of this alloy is investigated based on uniaxial ratchetting tests of T225NG titanium alloy at room temperature.
基于T225NG钛合金的单轴常温棘轮试验,本文研究了峰值棘轮应力对T225NG钛合金棘轮应变的影响。
The results show that the flow stress and peak strain increase with either increasing strain rate or decreasing deformation temperature.
试验结果表明,流变应力和峰值应变随变形温度的降低和应变速率的提高而增大。
The results show that the flow stress and peak strain increase with increasing strain rate or decreasing deformation temperature.
结果表明:实验条件下,流变应力及峰值应变随变形温度的降低和应变速率的提高而增大。
Effect of strain rates on peak flow stress is relate to deformation temperature.
应变速率对峰值应力的影响与变形温度有关。
We also investigate the effect of the substrate temperature in the nucleation stage on the FTIR absorption peak position and compressive stress in the thin films.
还研究了成核阶段衬底温度对薄膜立方相红外吸收峰峰位的影响。
Compared the welding residual stress with testing data, the both accord each other, and high temperature temper reduce the peak value of welding residual stress effectively.
将计算得到的残余应力分布与实测的残余应力数据进行比较,两者符合较好,而且高温回火有效的降低了焊接残余应力的峰值。
The experimental results show that the deformation temperature has significant influence on peak flow stress of the semi-solid LY11 alloy and as-received.
由试验结果可知:变形温度对LY 11合金的峰值应力影响显著,对稳态应力影响较小。
The results show that the flow stress and peak strain of 300M steel increase with the increase of strain rate or the decrease of deformation temperature.
流变应力和峰值应变随变形温度的升高和应变速率的降低而减小;
The results show that, the flow stress of SiCP/AZ61 composite is low, the relationship between peak stress and temperature or strain rate is exponential relationship.
结果表明,复合材料在高温下的流变应力较低,峰值应力与变形温度、应变速率之间的关系在低应力区符合指数关系。
Under operation of the temperature curve, the gradual temperature decrease leads to stress accumulation, so it results in the stress peak likes a wave and becomes higher and higher.
在该温度曲线的操纵下,逐步的降温造成应力累加,导致应力峰值呈波浪形且越来越高。
Under operation of the temperature curve, the gradual temperature decrease leads to stress accumulation, so it results in the stress peak likes a wave and becomes higher and higher.
在该温度曲线的操纵下,逐步的降温造成应力累加,导致应力峰值呈波浪形且越来越高。
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