热浸渗铝制备 Fe-Al 合金层温度-应力场有限元分析

黄敦伟; 侯新瑞; 胡爱萍

黄敦伟,侯新瑞,胡爱萍.热浸渗铝制备 Fe-Al 合金层温度-应力场有限元分析[J].表面技术,2013,42(6):32-36.
HUANG Dun-wei,HOU Xin-rui,HU Ai-ping.Finite Element Analysis on Temperature-stress Field of the Fe-Al Alloy Layer Prepared by the Hot Dipping Process[J].Surface Technology,2013,42(6):32-36

热浸渗铝制备 Fe-Al 合金层温度-应力场有限元分析

Finite Element Analysis on Temperature-stress Field of the Fe-Al Alloy Layer Prepared by the Hot Dipping Process

投稿时间：2013-07-03 修订日期：2013-09-02

DOI：

中文关键词: 有限元分析热浸处理 Fe-Al 合金层温度场应力场

英文关键词:Finite element analysis Hot dipping process Fe-Al alloy layer temperature field stress field

基金项目:

作者	单位
黄敦伟	常州大学机械工程学院, 常州 213016
侯新瑞	常州大学机械工程学院, 常州 213016
胡爱萍	常州大学机械工程学院, 常州 213016

Author	Institution
HUANG Dun-wei	College of Mechanical Engineering, Changzhou University, Changzhou 213016, China
HOU Xin-rui	College of Mechanical Engineering, Changzhou University, Changzhou 213016, China
HU Ai-ping	College of Mechanical Engineering, Changzhou University, Changzhou 213016, China

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中文摘要:

目的分析渗层厚度、加热温度及加热时间对渗层温度场-应力场的影响规律。方法利用ANSYS有限元软件对热浸处理制备 Fe-Al 合金层进行建模,计算铝的焓值,采用间接耦合法计算渗层应力。结果沿 X 轴方向,温度变化趋势大体上一致,均表现出上升的趋势,局部出现温度突变现象;渗层最高温度(935 . 528 ℃ ) 与加热温度(950 ℃ ) 相差 15 ℃ ,温度损失约 1 . 52% ;不同厚度下温度的变化趋势均为递减,当厚度为 200 μm 时,温度递减的趋势平稳,未出现峰值;随着渗层厚度的增加,应力值先增加,后减小,而后再增加。结论考虑应力、厚度对渗层性能的影响因素,渗层最佳厚度应为 200 μm。

英文摘要:

Objective To analyze the distribution laws of the temperature field and the residual stress field by the thickness, the heating temperature and heating time of the permeability layer. Methods The finite elements software of ANSYS was used to simulate the Fe-Al alloy layer prepared by the hot dipping process. Enthalpy value of aluminum was calculated, and the permeability layer stress was obtained using the indirect coupling method. Results The temperature changes of the alloy layer in the X-axis direction presented a rising trend, with temperature jump phenomenon in some parts. The difference between the highest temperature of the permeability layer (935 . 528 ℃ ) and the heating temperature (950 ℃ ) was 15 ℃ , resulting in a temperature loss of about 1 . 52 % . The temperature showed a downward trend in alloy layers with different thickness, and when the thickness was 200 μm, the decreasing trend of the temperature became smooth without appearance of peaks. With the increase of the coating thickness, the stress first increased and then decreased. Conclusion Considering the effect of the thickness and stress on the properties of the Fe-Al alloy layer, the optimal thickness should be about 200 μm.

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