Research on grind-hardening layer and residual stresses based on variable grinding forces

被引:1
作者
Xiangming Huang
Yinghui Ren
Wei Wu
Tong Li
机构
[1] Hunan University,College of Mechanical and Vehicle Engineering
[2] Central South University,Key Laboratory of High Performance Complex Manufacturing
来源
The International Journal of Advanced Manufacturing Technology | 2019年 / 103卷
关键词
Grind hardening; Variable grinding force; Residual stresses;
D O I
暂无
中图分类号
学科分类号
摘要
This paper analyzes the grinding force variation of grind-hardening process and proposes a simulation model to predict the residual stress profile based on the variable grinding forces. Time-dependent grinding force is discretized to calculate the heat flux intensity, which is applied on the actual contact length for the grinding temperature field, and the harden layer depth along the workpiece length is predicted. After that, the mechanical and thermal stress field is calculated with the results of variable grinding forces and grinding temperature, respectively. The loading stresses are coupled into an elastic-plastic structural analysis to estimate the residual stresses by defining indicator variables. Experimental results on the residual stress and the harden layer profile have validated the theoretical model.
引用
收藏
页码:1045 / 1055
页数:10
相关论文
共 85 条
[1]  
Brockhoff T(1999)Grind-hardening: a comprehensive view CIRP Ann-Manuf Technol 48 255-260
[2]  
Brinksmeier E(2007)Grinding-hardening with liquid nitrogen: mechanisms and technology Int J Mach Tool Manu 47 97-106
[3]  
Nguyen T(2005)An analytical numerical and experimental approach to grind-hardening Int J Manuf Process 7 1-9
[4]  
Zarudi I(2015)Numerical and experimental studies on grind-hardening cylindrical surface Int J Adv Manuf Technol 76 487-499
[5]  
Zhang LC(2008)Grinding wheel effect in the grind-hardening process Int J Adv Manuf Technol 38 48-58
[6]  
Chryssolouris G(2010)Grinding-hardening using dry air and liquid nitrogen: prediction and verification of temperature fields and hardened layer thickness Int J Mach Tool Manu 50 901-910
[7]  
Tsirbas K(2014)External grind-hardening forces modelling and experimentation Int J Adv Manuf Technol 70 523-530
[8]  
Salonitis K(2007)Cooling in grind-hardening operations Int J Adv Manuf Technol 33 285-297
[9]  
Liu SY(2015)Hardness control of grind-hardening and finishing grinding by means of area-based specific energy Int J Mach Tool Manu 88 24-33
[10]  
Yang G(2013)A three-dimensional analytical model to predict the thermo-metallurgical effects within the surface layer during grinding and grind-hardening Int J Heat Mass Transf 56 223-237
123456789