C元素对FGH96粉末高温合金显微组织和力学性能的影响
发布时间:2018-07-31 14:29
【摘要】:对C质量分数分别为0.05%和0.09%的FGH96合金进行了显微组织和力学性能的分析。结果发现:C元素含量较高时,除了碳化物数量明显增多外,还会在晶界处形成较大尺寸的块状MC碳化物;但是,C元素含量并未对原始颗粒边界(prior particle boundary,PPB)、晶粒度及γ′相产生明显的影响。C元素含量较高会提高FGH96合金在650℃时的抗拉强度和屈服强度,但会降低其塑性。在低周疲劳试验中,C元素含量较高,形成的大块MC型碳化物分布于表面或亚表面,将会作为裂纹起源从而显著降低合金的低周疲劳性能。
[Abstract]:The microstructure and mechanical properties of FGH96 alloy with 0.05% and 0.09% C by mass fraction were analyzed. The results show that in addition to the obvious increase in the number of carbides, the larger size MC carbides will be formed at grain boundaries when the content of% C is high. However, the content of C element does not have a significant effect on the original particle boundary (prior particle boundaryPPB), the grain size and 纬 'phase are obviously affected. The higher the content of C element, the higher the tensile strength and yield strength of FGH96 alloy at 650 鈩,
本文编号:2155882
[Abstract]:The microstructure and mechanical properties of FGH96 alloy with 0.05% and 0.09% C by mass fraction were analyzed. The results show that in addition to the obvious increase in the number of carbides, the larger size MC carbides will be formed at grain boundaries when the content of% C is high. However, the content of C element does not have a significant effect on the original particle boundary (prior particle boundaryPPB), the grain size and 纬 'phase are obviously affected. The higher the content of C element, the higher the tensile strength and yield strength of FGH96 alloy at 650 鈩,
本文编号:2155882
本文链接:https://www.wllwen.com/kejilunwen/jiagonggongyi/2155882.html
