汪帆星,汪舟,曾思明,孙文革,段芳芳,葛久志,陈艳华,日孜完古丽,甘进.基于FEM-DEM耦合模型喷丸铝合金薄壁件尺寸稳定性仿真研究[J].表面技术,2025,54(3):171-181.
WANG Fanxing,WANG Zhou,ZENG Siming,SUN Wenge,DUAN Fangfang,GE Jiuzhi,CHEN Yanhua,RIZI Wanguli,GAN Jin.Simulation Research on Dimensional Stability of Peened Aluminum Alloy Thin-walled Parts Based on Coupled FEM-DEM Model[J].Surface Technology,2025,54(3):171-181
基于FEM-DEM耦合模型喷丸铝合金薄壁件尺寸稳定性仿真研究
Simulation Research on Dimensional Stability of Peened Aluminum Alloy Thin-walled Parts Based on Coupled FEM-DEM Model
投稿时间:2024-03-21  修订日期:2024-05-09
DOI:10.16490/j.cnki.issn.1001-3660.2025.03.015
中文关键词:  铝合金薄壁件喷丸  FEM-DEM耦合模型  喷丸成形  残余应力分布  尺寸稳定性
英文关键词:shot peening of aluminum alloy thin-walled parts  coupled FEM-DEM model  shot peening forming process  residual stress distribution  dimensional stability
基金项目:国家自然科学基金(52371335);校企合作项目(20211h0038)
作者单位
汪帆星 武汉理工大学 汽车工程学院,武汉 430070;现代汽车零部件湖北省重点实验室,武汉 430070 
汪舟 武汉理工大学 汽车工程学院,武汉 430070;现代汽车零部件湖北省重点实验室,武汉 430070;新疆职业大学 智慧交通学院,乌鲁木齐 830013 
曾思明 武汉理工大学 汽车工程学院,武汉 430070;现代汽车零部件湖北省重点实验室,武汉 430070 
孙文革 新疆职业大学 智慧交通学院,乌鲁木齐 830013 
段芳芳 武汉理工大学 汽车工程学院,武汉 430070;现代汽车零部件湖北省重点实验室,武汉 430070 
葛久志 湖北省计量测试技术研究院,武汉 430223 
陈艳华 新疆大学 材料科学与工程学院,乌鲁木齐 830017 
日孜完古丽 新疆职业大学 智慧交通学院,乌鲁木齐 830013 
甘进 船海与能源动力工程学院,武汉 430070 
AuthorInstitution
WANG Fanxing School of Automotive Engineering, Wuhan 430070, China;Hubei Key Laboratory of Advanced Technology for Automotive Components, 
WANG Zhou School of Automotive Engineering, Wuhan 430070, China;Hubei Key Laboratory of Advanced Technology for Automotive Components,;School of Intelligent Transportation, Xinjiang Vocational University, Urumqi 830013, China 
ZENG Siming School of Automotive Engineering, Wuhan 430070, China;Hubei Key Laboratory of Advanced Technology for Automotive Components, 
SUN Wenge School of Intelligent Transportation, Xinjiang Vocational University, Urumqi 830013, China 
DUAN Fangfang School of Automotive Engineering, Wuhan 430070, China;Hubei Key Laboratory of Advanced Technology for Automotive Components, 
GE Jiuzhi HubeiInstitute of Measurement and Testing Technology, Wuhan 430223, China 
CHEN Yanhua School of Materials Scienceand Engineering, Xinjiang University, Urumqi 830017, China 
RIZI Wanguli School of Intelligent Transportation, Xinjiang Vocational University, Urumqi 830013, China 
GAN Jin School of Naval Architecture, Wuhan 430070, China 
摘要点击次数:
全文下载次数:
中文摘要:
      目的 探究喷丸对铝合金薄壁件残余应力场的影响和应力释放后尺寸稳定性的影响。方法 基于ABAQUS有限元软件建立多弹丸随机撞击薄壁件模型和喷丸薄壁件残余应力释放模型,并对模型预测7075铝合金薄壁件残余应力场的准确性进行验证。通过FEM-DEM耦合薄壁件喷丸+残余应力释放一体化模型,探究喷丸速度、喷丸直径、喷丸质量流工艺参数对7075铝合金薄壁件残余应力场和尺寸稳定性的影响规律。结果 沿层深分布的残余应力试验值和仿真值最大误差在±16%以内,平均误差为6%,证实了模型良好的残余应力预测准确性。随弹丸速度增大,铝合金薄壁件表面残余应力和约束释放后的变形增大,速度为100 m/s时最大残余压应力约为‒323 MPa。随弹丸直径增大,表面残余应力缓慢增大,残余压应力层深增加,弹丸直径为0.8 mm时残余压应力层深约为0.42 mm。随弹丸质量流增大,表面残余应力和约束释放后的形变也会小幅增加。增大弹丸质量流对增大最大残余应力和约束释放后的变形的增大效率小于增大弹丸速度和弹丸直径。根据仿真结果建立了喷丸效能评估参数和喷丸工艺参数相联系的预测模型。结论 研究验证了多弹丸随机撞击薄壁件模型和喷丸薄壁件应力释放模型具有良好的预测喷丸薄壁件残余应力场和约束释放后变形的能力,为铝合金薄壁件喷丸强化工艺和成形工艺提供了一种数字化研究思路和实际数据支撑。
英文摘要:
      In order to investigate the effect of shot peening on the residual stress field of aluminum alloy thin-walled parts and the dimensional stability after constraint release, a multi-shots random impact model of thin-walled part and a residual stress release model of peened thin-walled part were established based on ABAQUS finite element software. The accuracy of multi-shots random impact model of thin-walled part in predicting the residual stress field of 7075 aluminum alloy thin-walled parts was verified. The effect of shot velocity, shot diameter, and shot mass flow rate on the residual stress field and dimensional stability of 7075 aluminum alloy thin-walled parts was investigated through the coupled FEM-DEM shot peening and residual stress release integrated model for thin-walled parts. The maximum error between the experimental and simulated residual stresses distribution in depth was within ±16% and the average error was 6%, which verified the good accuracy of residual stress prediction of this model. As the shot velocity increased, the residual stress on the surface of the aluminum alloy thin-walled parts and the deformation of thin-walled parts after constraint release increased. The maximum compressive residual stress was about ‒323 MPa when the shot velocity was 100 m/s. As the shot diameter increased, the surface residual stress increased slowly and the depth of the compressive residual stress layer increased obviously. When the shot diameter was 0.8 mm, the depth of the compressive residual stress layer was about 0.42 mm. When the shot diameter was 1.0 mm, the depth of the compressive residual stress layer was 0.64 mm. As the shot mass flow rate increased, the surface residual stress and the deformation of thin-walled parts after constraint release also increased slightly. However, the increasing efficiency of shot mass flow rate decreased gradually, the shot mass flow rate increased from 1.2 kg/min by 150% to 3 kg/min, the maximum residual stress increased by only 9.7%, and the displacement in the Z direction increased by only 13.5% after constraint release. The increment efficiency of increasing the shot mass flow rate on the maximum residual stress and deformation increment after constraint release was lower than that of increasing the shot velocity and shot diameter. Specifically, the shot velocity had the highest efficiency in increasing the values of compressive residual stress and displacement change in Z direction, followed by the increase in shot diameter, and the lowest efficiency in increasing the shot mass flow rate. Generally speaking, with the uniform increase of the three process parameters which are shot velocity, shot diameter and shot mass flow rate, the increasing efficiency of the compressive residual stress caused by shot peening and the displacement change in the Z direction decreases after constraint release. Based on the simulation results, a prediction model linking shot peening effectiveness evaluation parameters and shot peening process parameters is established. A good predictive ability of a multi-shots random impact thin-walled part model and a residual stress release model of peened thin-walled part on the residual stress field before constraint release and the deformation of thin-walled parts after constraint release has been verified. This research provides a digital research approach and practical data support for shot peening strengthening and forming processes of aluminum alloy thin-walled parts.
查看全文  查看/发表评论  下载PDF阅读器
关闭

关于我们 | 联系我们 | 投诉建议 | 隐私保护 | 用户协议

您是第29773434位访问者    渝ICP备15012534号-3

版权所有:《表面技术》编辑部 2014 surface-techj.com, All Rights Reserved

邮编:400039 电话:023-68792193传真:023-68792396 Email: bmjs@surface-techj.com

渝公网安备 50010702501715号