A Simple Model for Hardness and Residual Stress Profiles Prediction for Low-Alloy Nitrided Steel, Based on Nitriding-Induced Tempering Effects

S. Thibault; C. Sidoroff; S. Jegou; L. Barrallier; G. Michel

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A Simple Model for Hardness and Residual Stress Profiles Prediction for Low-Alloy Nitrided Steel, Based on Nitriding-Induced Tempering Effects

机译：基于氮化致氢效应的低合金氮化钢硬度和残余应力谱预测的简单模型

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Nitriding of low-alloy steels is widely used for gears and bearings in aerospace industry. Some highly stressed surfaces require high nitrided depth, which involves long time/high temperature nitriding treatment. This study focused on identifying process parameter effects on hardness and residual stress profiles in a large range of nitriding time and temperature. We demonstrate that core and case can be considered as two materials, softening of which can be predicted by two tempering laws. In addition, a basic relationship was derived from the nitriding depth and a pseudo-diffusion coefficient, allowing prediction of the hardness profile. Residual stress results show that the diffusion controlled effect can also be used to predict residual stress profile affected depth. Likewise, the tempering controlled effect can be used to predict surface and maximum values of the residual stress profile.

机译：低合金钢的氮化广泛用于航空航天工业中的齿轮和轴承。一些高度压力的表面需要高氮化深度，这涉及长时间/高温氮化处理。本研究重点是在大范围的氮化时间和温度范围内识别对硬度和残余应力分布的过程参数效应。我们证明核心和案例可以被认为是两种材料，其软化可以通过两个锻炼法则预测。另外，源自氮化深度和伪扩散系数的基本关系，允许预测硬度曲线。残余应力结果表明，扩散控制效果也可用于预测受影响深度的残余应力曲线。同样地，回火控制效果可用于预测残余应力曲线的表面和最大值。

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《HTM: Zeitschrift fur Werkstoffe Warmebehandlung Fertigung 》 |2018年第5期| 共11页
作者
S. Thibault; C. Sidoroff; S. Jegou; L. Barrallier; G. Michel;
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作者单位

Safran Tech Magny les Hameaux IRT-M2P;

NTN-SNR Annecy IRT-M2P;

MSMP Laboratory Arts et Metiers ParisTech;

MSMP Laboratory Arts et Metiers ParisTech;

IRT-M2P;

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原文格式 PDF
正文语种 eng
中图分类热处理 ;
关键词
Nitriding; Modelling; Hardening; Tempering; Residual stress;

机译：氮化;造型;硬化;回火;残余压力;

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专利

1. A Simple Model for Hardness and Residual Stress Profiles Prediction for Low-Alloy Nitrided Steel, Based on Nitriding-Induced Tempering Effects [J] . S. Thibault, C. Sidoroff, S. Jegou, HTM: Zeitschrift fur Werkstoffe Warmebehandlung Fertigung . 2018 ,第5期

机译：基于氮化致氢效应的低合金氮化钢硬度和残余应力谱预测的简单模型
2. Prediction of hardness in HAZ of low-alloy steel produced by temper bead welding using neural network [J] . YU Lina, NAKABAYASHI Yuma, ITO Shinsuke, Transactions of JWRI . 2010 ,第2期

机译：基于神经网络的回火焊缝低合金钢热影响区硬度预测
3. Influence of increased nitriding temperatures on the hardness profile of low-alloy steels [J] . Schneider RSE., Hiebler H. Journal of Materials Science . 1998 ,第7期

机译：氮化温度升高对低合金钢硬度分布的影响
4. Expansion of Hardness Prediction System for Temper Bead Welding of A533B Steel to Low-Alloy Steels [C] . Una Yu, Kazuyoshi Saida, Masahito Mochizuki International Conference on Trends in Welding Research . 2016

机译：A533B钢调气珠焊硬度预测系统的扩展，低合金钢
5. Laser quench hardening of steel: Effects of superimposed elastic pre-stress on the hardness and residual stress distribution. [D] . Meserve, Justin. 2013

机译：钢的激光淬火硬化：叠加的弹性预应力对硬度和残余应力分布的影响。
6. Modeling and Composition Design of Low-Alloy Steel’s Mechanical Properties Based on Neural Networks and Genetic Algorithms [O] . Zhenlong Zhu, Yilong Liang, Jianghe Zou 2020

机译：基于神经网络和遗传算法的低合金钢力学性能建模与组成设计
7. Extended application of hardness prediction system for temper bead welding of A533B steel to various low-alloy steels [O] . Lina Yu, Kazuyoshi Saida, Kazutoshi Nishimoto 2020

机译：硬度预测系统对A533B钢淬火胎圈焊接到各种低合金钢的延长应用

A Simple Model for Hardness and Residual Stress Profiles Prediction for Low-Alloy Nitrided Steel, Based on Nitriding-Induced Tempering Effects

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