郭晓光Maggie Guo

(教授)

 博士生导师  硕士生导师
学位:博士
性别:女
毕业院校:大连理工大学
所在单位:机械工程学院
电子邮箱:guoxg@dlut.edu.cn

论文成果

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Study on influence of grinding depth and grain shape on grinding damage of K9 glass by SPH simulation

发表时间:2020-02-17 点击次数:

论文名称:Study on influence of grinding depth and grain shape on grinding damage of K9 glass by SPH simulation
论文类型:期刊论文
发表刊物:INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
收录刊物:SCIE、EI
卷号:106
期号:1-2
页面范围:333-343
ISSN号:0268-3768
关键字:K9 glass; Grain shape; Ductile-brittle transition; SPH simulation; Surface; subsurface damage
摘要:This work use the SPH method to study the relationship between grinding depth and grinding force of K9 glass in ultra-precision grinding, and the effect of grain shape on material removal. The relationship between the force and the depth in the stable scratching stage is F-R = 0.55078a(p)(1.15356), which provides a basis for controlling the grinding depth by force. The material removal modes at different grinding depths were obtained, that is, plastic removal occurs below 0.2 mu m, brittle transition occurs between 0.2 and 0.4 mu m, and brittle removal occurs at more than 0.5 mu m. It is found that the cutting resultant force of sharp grains is smaller and the normal force is smaller than the tangential force. By analyzing the plastic deformation depth and residual stress depth, it is found that the material removal mode with small deformation and little removal has the lowest cutting force fluctuation and the highest grinding quality. It provides a reference for the choosing of grain shape in rough grinding and ultra-precision grinding. The correctness and reliability of the simulation results were verified by the comparison of the simulation findings with the results obtained from varied-depth scratching experiments and the multi-shape indenter scratch experiments.
发表时间:2020-01-01