Determination of Machining Parameters for a Specific Adjustment of the Residual Stress Profile by Induction Hardening*

IF 0.3 Q4 THERMODYNAMICS
F. Frerichs, T. Lübben
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引用次数: 0

Abstract

Abstract Within the research work of the Transregional Collaborative Research Center TRR 136, process signatures were determined for processes that generate essentially thermal loading of the component surface layer. These process signatures represent correlations between material modifications (e. g. changes of residual stress, microstructure, hardness profile, etc.) and characteristic values of the material loading. The underlying idea is that the material does not know any processes but only loads caused by processes. In particular, the same loads lead to the same material modifications regardless of the kind of process. A decisive advantage of this concept over conventional approaches is the possibility of calculating the necessary internal material loads backwards on the basis of concrete specifications for the material modifications. If there are additional correlations between internal material loads and process quantities as well as between process quantities and machining parameters, the necessary machining parameters can be determined, too. In this paper, this procedure will be introduced using the example of one-sided induction hardening of cuboidal components made of 42CrMo4. The determination of the process signature by experimental and numerical investigations is described and work for experimental verifications are presented.
通过感应淬火对残余应力剖面进行特定调整的加工参数的确定*
在跨区域合作研究中心TRR 136的研究工作中,确定了产生组件表层热载荷的过程的过程特征。这些过程特征表示材料修改(例如残余应力、微观结构、硬度剖面等的变化)与材料加载特征值之间的相关性。其基本思想是,材料不知道任何过程,而只知道由过程引起的负载。特别是,无论何种工艺,相同的载荷都会导致相同的材料修改。与传统方法相比,这个概念的一个决定性优势是可以根据材料修改的具体规格向后计算必要的内部材料载荷。如果内部材料载荷与工艺数量之间以及工艺数量与加工参数之间存在额外的相关性,则也可以确定必要的加工参数。本文以42CrMo4长方体零件的单边感应淬火为例,介绍了该工艺。描述了通过实验和数值研究确定过程特征的方法,并提出了实验验证的工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.50
自引率
33.30%
发文量
43
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