切削过程中剪切区微观组织演化的预测模型

doi:10.12141/j.issn.1000-565X.190920

华南理工大学学报（自然科学版） ›› 2021, Vol. 49 ›› Issue (1): 82-92.doi: 10.12141/j.issn.1000-565X.190920

所属专题： 2021年机械工程

切削过程中剪切区微观组织演化的预测模型

周滔¹何林^1,2† 田鹏飞¹ 杜飞龙^1,3吴锦行¹

1．贵州大学机械工程学院，贵州贵阳 550025; 2．六盘水师范学院矿业与土木工程学院，贵州六盘水 553000; 3．贵州大学现代制造技术教育部重点实验室，贵州贵阳 550025

收稿日期:2019-12-20 修回日期:2020-04-28 出版日期:2021-01-25 发布日期:2021-01-01
通信作者: 何林 ( 1965-) ，男，教授，博士生导师，主要从事刀具创新设计、摩擦与表面工程研究。 E-mail:helin6568@163.com
作者简介:周滔(1994-) ，男，博士生，主要从事加工过程数值建模和刀具创新设计研究。E-mail: ld-zt@foxmail.com
基金资助:
国家自然科学基金资助项目 ( 51765009，51665007)

Prediction Model of Microstructure Evolution in Shear Zone During Cutting Process

ZHOU Tao¹ HE Lin^1,2 TIAN Pengfei¹ DU Feilong^1,3WU Jinxing¹

1． School of Mechanical Engineering，Guizhou University，Guiyang 550025，Guizhou，China; 2． School of Mines and Civil Engineering，Liupanshui Normal University，Liupanshui 553000，Guizhou，China; 3． Key Laboratory of Advanced Manufacturing Technology of the Ministry of Education，Guizhou University， Guiyang 550025，Guizhou，China

Received:2019-12-20 Revised:2020-04-28 Online:2021-01-25 Published:2021-01-01
Contact: 何林 ( 1965-) ，男，教授，博士生导师，主要从事刀具创新设计、摩擦与表面工程研究。 E-mail:helin6568@163.com
About author:周滔(1994-) ，男，博士生，主要从事加工过程数值建模和刀具创新设计研究。E-mail: ld-zt@foxmail.com
Supported by:
Supported by the National Natural Science Foundation of China ( 51765009，51665007)

摘要/Abstract

摘要： 金属切削过程中强烈的热力载荷会引起切屑内微观组织的变化。为了反映材料微观组织对剪切区力学行为的影响，提出了一种基于位错密度的剪切区微观组织演化解析模型，对切屑形成过程中塑性变形引起的微观组织演化过程进行了建模。首先，使用非等距剪切区解析模型计算出剪切区应变和应变率的分布; 然后，用基于位错密度的材料模型替换 Johnson-Cook 流动应力模型，迭代计算剪切区温度场; 最后，模拟出直角切削无氧铜、铝合金的剪切区位错密度和晶粒尺寸的演化过程。结果表明，结合位错密度建立的剪切区微观演化解析模型可较好地反映切削过程中变形场和微观组织演化的基本特征，在不同切削参数下的切削力和切屑内晶粒尺寸预测值与实验数据具有较好的一致性。

关键词: 剪切区, 微观组织演化, 位错密度, 晶粒尺寸, 材料模型

Abstract: During the metal cutting process，the intense thermo-mechanical load can cause changes in the microstructure of the chips． In order to reflect the influence of the material microstructure on the mechanical behavior of shear zone，an analytical model of microstructure evolution in shear zone based on dislocation density was proposed． And it was used to model the microstructure evolution process caused by plastic deformation during chip formation． Firstly，the distribution of strain and strain rate in shear zone was calculated through the analytical model of unequal shear zone． Secondly，the Johnson-Cook ( J-C) flow stress model was replaced by the material model based on dislocation density to calculate the temperature field in the shear zone iteratively． Finally，the evolution process of dislocation density and grain size in shear zone of orthogonal cutting oxygen-free copper and aluminum alloy was simulated． The results show that the analytic model for the micro-evolution of the shear zone combined with the dislocation density can better reflect the basic characteristics of the deformation field and microstructure evolution during the cutting process． The predicted values of cutting force and grain size in chips under different cutting parameters are in good agreement with the experimental data．

Key words: shear zone, microstructure evolution, dislocation density, grain size, material model

中图分类号:

TG506

周滔, 何林, 田鹏飞, 等. 切削过程中剪切区微观组织演化的预测模型[J]. 华南理工大学学报（自然科学版）, 2021, 49(1): 82-92.

ZHOU Tao, HE Lin, TIAN Pengfei, et al. Prediction Model of Microstructure Evolution in Shear Zone During Cutting Process[J]. Journal of South China University of Technology (Natural Science Edition), 2021, 49(1): 82-92.

切削过程中剪切区微观组织演化的预测模型

Prediction Model of Microstructure Evolution in Shear Zone During Cutting Process

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