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。
During deformation, because of dynamic recovery and recrystallization, a turning point appears on the curve of true stress with temperature and strain rate.
这个折点的出现可能与变形过程中的动态回复与再结晶有关。
The flow behavior and dynamic recovery and recrystallization, as well as microstructure evolution, of AA7005 aluminium alloy in hot compression were investigated.
研究了AA70 0 5合金高温压缩变形时的流变应力、动态回复与再结晶以及变形组织变化特征。
The results show that the matrix in the microstructure occurs dynamic recovery and recrystallization and the materials generate cyclic softening during thermal cycling.
结果表明,在热循环过程中基体组织发生动态回复和再结晶,材料产生循环软化;
Dynamic recovery and local recrystallization is the main softening mechanism.
动态回复和局部再结晶是主要的软化机制。
These phenomena have already been mentioned above, the paper explained using dynamic recovery, dynamic recrystallization and vacancy theory.
根据上述诸现象,文章用动态回复再结晶理论、空洞理论等进行了解释。
These phenomena have already been mentioned above, the paper explained using dynamic recovery, dynamic recrystallization and vacancy theory.
根据上述诸现象,文章用动态回复再结晶理论、空洞理论等进行了解释。
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