Experiment and Simulation on Temperature Field of 40Cr Steel Surface Layer in Grind-Hardening

机译：研磨硬化中40Cr钢表面层温度场的实验与仿真

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The grinding heat is utilized to induce martensitic phase transformation and strengthen the surface layer of 40Cr steel by raising surface temperature higher than austenitic temperature and cooling quickly. Experiment was performed with the different grinding conditions. Semi-natural thermocouple is used to measure the temperature field development of 40Cr steel surface layer in grind-hardening. Temperature field development of alloy steel 40Cr is simulated by finite element method in grind-hardening. Comparison between simulated results obtained from the finite element model and experiment results reveals a good agreement. The maximal surface temperature is smaller when the table speed is slower, but the hardness depth is deeper. The finite element model can predict grind-hardening result to reduce the experiment cost and time.

机译：研磨热量用于诱导马氏体相变，通过提高比奥氏体温度高的表面温度和快速冷却来强化40Cr钢的表面层。用不同的研磨条件进行实验。半天然热电偶用于测量研磨硬化中40Cr钢表面层的温度场发育。通过在研磨硬化中的有限元法模拟了合金钢40cr的温度场。从有限元模型和实验结果获得的模拟结果之间的比较揭示了良好的一致性。当表速度较慢时，最大表面温度较小，但硬度深度更深。有限元模型可以预测研磨硬化结果以降低实验成本和时间。

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来源
《International Conference on Surface Finishing Technology and Surface Engineering》|2006年||共4页
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作者
L. Zhang; P.Q. Ge; J.H. Zhang; Z.J. Zhu; Z.Y. Luan; Chinese Committee for Surface Finishing Technology(CN); Dalian University of Technology(CN); National Natural Science Foundation of China;
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中图分类金属腐蚀与保护、金属表面处理;
关键词
grind-hardening; temperature field simulation; thermocouple;

机译：研磨硬化;温度场仿真;热电偶;

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1. Experimental and simulation studies on temperature field of 40Cr steel surface layer in grind-hardening [J] . L. Zhang, P. Q. Ge, J. H. Zhang, International Journal of Abrasive Technology . 2007,第2期

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2. Study on the distribution of hardening layer of 40Cr and 45 steel workpiece in grind-hardening process based on simulation and experiment [J] . Zhang Xiuming, Xiu Shichao, Shi Xiaoliang The International Journal of Advanced Manufacturing Technology . 2017,第9a12期

机译：基于模拟和实验的研磨硬化过程中40Cr和45钢工件硬化层的分布研究
3. Residual stress distribution at grind-hardening layer surface of the 40Cr workpiece [J] . Zou J. F., Pei H. J., Hua C. L., Materials Research Innovations . 2015,第suppla5期

机译：40Cr工件磨削硬化层表面的残余应力分布
4. Experiment and Simulation on Temperature Field of 40Cr Steel Surface Layer in Grind-Hardening [C] . L. Zhang, P.Q. Ge, J.H. Zhang, International Conference on Surface Finishing Technology and Surface Engineering(ICSFT2006); 20060925-27; Dalian(CN) . 2006

机译：40Cr钢表面层磨削强化温度场的试验与模拟
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Experiment and Simulation on Temperature Field of 40Cr Steel Surface Layer in Grind-Hardening

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