后续的温度工艺参数只是影响原始奥氏体混晶的遗传或变异。
The inheritance and aberrance of the mixed original austenite grains are significantly affected by the following temperature parameters.
结果表明,在焊接热模拟条件下,原始奥氏体晶粒尺寸是影响机械性能的主要因素。
Results show that after various welding simulations, the grain size of austenite imposes the most significant effect on the tensile and impact properties;
原始材料的组织状态为形变马氏体、淬火马氏体及残余奥氏体。
The original structure consists of deformation induced martensite, quenching martensite and retained austenite.
原始组织对奥氏体形核及长大过程的影响十分敏感。
The influence of the original structure on forming nucleus and growing process of austenite was very sensitive.
形变参数对相变过程有着显著的影响,奥氏体化温度决定了奥氏体原始晶粒尺寸同样影响着形变诱导铁素体相变过程。
Deforming parameters can have remarkable effect and the austeniting temperature can determine the original austenite grain size, consequently influence the process of DIFT.
形变参数对相变过程有着显著的影响,奥氏体化温度决定了奥氏体原始晶粒尺寸同样影响着形变诱导铁素体相变过程。
Deforming parameters can have remarkable effect and the austeniting temperature can determine the original austenite grain size, consequently influence the process of DIFT.
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