粉末冶金钢碳氮共渗后表层状况的实验与数值研究。第2部分:梯度孔隙度组分的表层状态

IF 0.3 Q4 THERMODYNAMICS
J. Damon, S. Pulvermacher, S. Dietrich, V. Schulze
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引用次数: 0

摘要

摘要采用碳氮共渗等淬火工艺可以提高粉末冶金(PM)组织部件的性能。这些成分部分开放的孔隙率导致扩散显著增加,这反过来又导致与熔化的冶金材料相比,表层元素梯度的变化(从而导致表层状态的变化)。在两部分的工作范围内,研究了在普通密度下的表面层状态。本部分2包括根据碳和氮的轮廓和回火热处理所产生的表面层状态的表征。通过深轧和随后的碳氮化处理,测定了硬度高达850 HV0.1,残余奥氏体含量高达25 vol-%,残余应力高达- 300 MPa。本文所描述的数值模型的扩展使有限元模型能够以±20%的误差范围预测各种工艺组合和密度下的表面层状态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental and Numerical Investigation of the Surface Layer Conditions after Carbonitriding of Powder Metallurgical Steels. Part 2: Surface Layer States in Components of Graded Porosity
Abstract Case hardening processes such as carbonitriding can be used to improve the performance of powder metallurgical (PM) structural components. The partially open porosity of these components leads to a significant increase in diffusion, which in turn leads to a change in the element gradient in the surface layer (and consequently the surface layer state) compared to melting metallurgic materials. Within the scope of a two-part work, the surface layer states in common densities are investigated after the case hardening process. The present part 2 comprises the characterisation of the resulting surface layer states depending on the carbon and nitrogen profile and the tempering heat treatment. Through the deep rolling and the subsequent carbonitriding treatment, hardness of up to 850 HV0.1, retained austenite contents of up to 25 vol-% and residual stresses of up to –300 MPa are determined across densities. The extensions to the numerical models described in this paper enable the FE model to predict the surface layer states in a wide range of process combinations and densities with an error tolerance of ±20 %.
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来源期刊
CiteScore
1.50
自引率
33.30%
发文量
43
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