热等静压金属基复合材料的蠕变行为

C. S. Lim, N. P. Hung, Y. C. Tan, N. Loh
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引用次数: 0

摘要

铸件通常含有缩孔和内部气孔等缺陷。将热等静压(HIPping)技术应用于铸造金属,可以通过高等静压和高温的协同作用来消除这些缺陷。研究了HIPping对铸造A359/SiC/20p复合材料蠕变的影响。尽管由于消除了铸件内部孔隙,蠕变寿命有望提高,但蠕变结果与预期相反。对铸态复合材料的活化能计算表明,HIPping后材料的活化能降低。随着拉伸强度的提高,铸造复合材料的蠕变寿命得到改善,而随着伸长率的增加,铸造hipped复合材料的失效蠕变应变得到改善。据报道,应力对蠕变特性的影响表明,随着应力的增加,温度保持不变,蠕变寿命和蠕变应变会减少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Creep Behaviour of Hot Isostatically Pressed Metal-Matrix Composite
Castings usually contain defects such as shrinkage cavities and internal gas porosity. The application of hot isostatic pressing (HIPping) to cast metals can remove such defects through the synergistic effect of high isostatic pressure and high temperature. This paper investigates the effects of HIPping on creep of cast A359/SiC/20p composite. Although creep life was expected to improve due to removal of internal porosity in the castings, the creep results were contrary to expectations. Activation energy calculated for the cast composite, showed a decrease in activation energy for the material after HIPping. Creep life was noted to have improved with higher tensile strength as for the cast composite while creep strain at failure improved with an increase in elongation for the cast-HIPped composite. The effect of stress on creep properties are reported to show a decrease in creep life and creep strain at failure with an increase in stress, temperature remaining constant.
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