从动态恢复的角度解释α铁的蠕变变形

T. Watanabe, S. Karashima
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引用次数: 16

摘要

摘要在不同蠕变应变下进行了应力松弛和拉伸试验,研究了α铁在蠕变过程中的动态恢复和加工硬化行为。加工硬化速率对蠕变变形的控制作用较小;在不同应力和温度下观察到的蠕变速率主要可以用顺磁性和铁磁性温度区的动态恢复速率来解释。动态恢复活化能与蠕变活化能吻合较好,两者均等于自扩散活化能。由此得出结论:α -铁的蠕变是由扩散控制的动态恢复过程决定的。提出了应力松弛法在蠕变动态恢复定量研究中的应用。
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An Interpretation of Creep Deformation in Alpha-Iron from the Viewpoint of Dynamic Recovery
AbstractStress-relaxation and tensile tests have been performed at various creep strains to study the dynamic-recovery and work-hardening behaviour of alpha-iron during creep. The work-hardening rate controls the creep deformation to a minor extent only; the observed creep rates at various stresses and temperatures can be explained mainly in terms of the dynamic-recovery rates in both the paramagnetic and the ferromagnetic temperature regions. The activation energies for dynamic recovery are in good agreement with those for creep, which are equal to the activation energies for self-diffusion. Thus, it is concluded that the creep deformation of alpha-iron is determined by a diffusion-controlled dynamic-recovery process. It is also proposed that the stress-relaxation method should be used in quantitative studies of dynamic recovery during creep.
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