Mechanism of Residual Stress Generation in Quenched Fe-Ni Alloy Cylinders Using Simulated Strains-Based Approach*

IF 0.3 Q4 THERMODYNAMICS
K. Arimoto
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引用次数: 0

Abstract

Abstract To elucidate the mechanisms of residual stress generation in quenched steel parts has been a longstanding problem. Qualitative explanations for the changes in the stress distribution in quenched cylinders appeared in the 1930s when it became possible to measure residual stresses in specimens. The explanation at that time used the concept of thermal and transformation stresses, which is still included in current textbooks. This concept is referred to here as the estimated stresses-based approach. To simplify the explanation of stress generation due to the combined effects of temperature change and phase transformations, quenching experiments were devised using Fe-Ni alloys in which only martensitic transformation occurs. On the other hand, since heat treatment simulations provide strains resulting from thermal, phase transformation, plastic, transformation plastic, and creep phenomena, a method to elucidate the mechanism using these strains was devised in the early 2000s and named the simulated strains-based approach. This paper contrasts the estimated stresses-based and simulated strains-based approaches to the mechanism of residual stress generation in quenched Fe-Ni alloy cylinders and highlights the superiority of the latter.
基于模拟应变法的淬火铁镍合金汽缸残余应力产生机制*
摘要对淬火钢件残余应力产生机理的研究一直是一个长期存在的问题。在20世纪30年代,当测量试样中的残余应力成为可能时,对淬火圆柱体中应力分布变化的定性解释出现了。当时的解释使用了热应力和转化应力的概念,这些概念至今仍包括在教科书中。这个概念在这里被称为基于估计应力的方法。为了简化温度变化和相变共同作用下应力产生的解释,设计了只发生马氏体相变的Fe-Ni合金淬火实验。另一方面,由于热处理模拟提供了由热、相变、塑性、转化塑性和蠕变现象产生的应变,因此在21世纪初设计了一种利用这些应变来阐明机理的方法,并将其命名为基于模拟应变的方法。对比了基于估计应力法和基于模拟应变法研究铁镍合金气瓶淬火残余应力产生机理的方法,并强调了后者的优越性。
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来源期刊
CiteScore
1.50
自引率
33.30%
发文量
43
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