An expression of critical stress of the void growth is obtained.
另外,得到了使孔洞增长的临界应力值的表达式。
R T model is inaccurate for predicting void growth in a smooth tensile bar.
模型对光滑拉伸试件中孔洞长大的预测是不够准确的。
Void growth behavior plays an important role in the deformation, damage and rupture of the nickel-base single crystal superalloys at high temperature.
在高温状态下,镍基单晶超合金的变形、损伤及断裂分析中,孔洞的长大都起着主要的作用。
But until Asia draws greater support from its 3.5 billion consumers, there are no guarantees that the region will provide a new source of global growth to fill the void.
如果亚洲不能从35亿的消费者中得到更多的支持,那么这个地区为全球增长提供新的增长源来填补增长的空缺将会没有任何保证。
The influence of the material parameters on the void formation and growth is considered by numerical computation and the results are compared with those for static analysis.
通过数值计算,分析了材料参数和球体的半径比对孔穴生成和增长的影响,并与相应的静态结果进行了比较。
If the volatile vapor pressure in the curing laminate exceeds the actual pressure on the liquid resin prior to gelation, then void formation and growth will occur.
如果树脂凝胶前挥发物的蒸气压力超过树脂流体的压力,则会在层板中生成孔隙,而且孔会长大。
The influence of the temperature and material parameters of the composed sphere on the void formation and growth are considered and compared with that for static analysis.
考察了参数对孔穴生成与增长的影响,并与相应的静态结果进行了比较。
The results indicate that the continuity loss such as void initiation, growth and coalescence begins in the early stage of deformation before necking.
结果表明,在颈缩开始前的早期变形中,试样内部即已开始了微孔萌生、长大和连结等连续性丧失的过程。
Shear band formation due to void nucleation and growth were successfully simulated in a specimen of geomaterial under plane stress compression and tension by the model respectively.
采用该模型,成功地对平面应力条件下岩土材料单轴受压和单轴受拉试件的局部化破坏分别进行了数值模拟。
The volume growth rate in proportion with hydration reaction rate and in contrast to void ratio in hydration course was described.
在理论上描述了静态破裂剂水化过程中体积增长率与水化反应速率成正比、与体系孔隙率成反比的关系式。
The oscillating lift coefficient increases with the growth of the void fraction in such a way that it increases slowly before the void fraction up to 0.1 and after that, increases faster.
脉动升力系数先随含气率的增大而缓慢增加,在含气率增大到0.1后增大得较快。
The oscillating lift coefficient increases with the growth of the void fraction in such a way that it increases slowly before the void fraction up to 0.1 and after that, increases faster.
脉动升力系数先随含气率的增大而缓慢增加,在含气率增大到0.1后增大得较快。
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