1·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。
2·It is found that flow stress is dependent on deformation temperature and strain rates.
结果表明,流变应力取决于变形温度和变形速率。
3·The strain rate sensitivity exponent increases little with increasing deformation temperature.
随着变形温度的提高,该合金的应变速率敏感指数值变化很小。
4·Thermal deformation temperature and liner expansion coefficient of the composite were decreased.
该复合材料的热变形温度有所降低,但线膨胀系数减小。
5·When deformation temperature is constant, flow stress increases with the increase of strain rate.
当温度一定时,流变应力随着应变速率的升高而增大。
6·Increasing deformation temperature, enhancing strain and increasing strain rate can accelerate transformation.
变形温度的升高、变形量及变形速率的增加对相变有促进作用。
7·Dynamic recovery and recrystallization of the composite generate with the increasing of deformation temperature.
随变形温度升高,复合材料发生动态回复再结晶。
8·The results show that the softening ratio increases with the increase of deformation temperature and interval time.
结果表明,其静态软化率随变形温度的升高和道次间隔时间的延长而不断增加。
9·Deformation temperature and pass strain are the key factors controlling the cracking of the samples during deformation.
变形温度和应变量的精确控制是保证合金形变中不发生开裂的关键。
10·The resin toughness, the casting of the thermal deformation temperature is a good Comprehensive Performance winding resin.
该树脂韧性好,其浇铸体的热变形温度高是一种综合性能良好的缠绕用树脂。