Research on Material Removal Mechanism of Single Grit Cutting Based on FEM Simulation

Lan Yan; Feng Jiang; Cong Fu Fang

doi:10.4028/www.scientific.net/AMR.1017.82

Paper Titles

Deformation and Removal Characteristics of Multilayered Thin Film Structures in Nanoscratching and Diamond Lapping
p.61

Influence of Work Speed on Surface Quality with Rapid Rotation Mirror-Like Surface Grinding
p.66

Estimation of Grinding Cycle Time Taking into Account Specific Grinding Force
p.72

Study on the Shape Error in the Cylindrical Traverse Grinding of a Workpiece with High Aspect Ratio
p.78

Research on Material Removal Mechanism of Single Grit Cutting Based on FEM Simulation
p.82

A Preliminary Study of Surface Integrity and Wheel Wear in the Grinding of Multilayered Thin Film Structures
p.88

Experiment Research on ZrO₂ Engineering Ceramics with Abrasive Belt Grinding
p.92

Research on Grinding of Silicon Particles Reinforced Aluminum Matrix Composites with High Volume Fraction
p.98

Investigation of Grinding Characteristics of Cemented Carbides YL10.2 and YF06
p.104

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1017Research on Material Removal Mechanism of Single...

Research on Material Removal Mechanism of Single Grit Cutting Based on FEM Simulation

Abstract:

Grinding process can be considered as micro-cutting processes with irregular abrasive grits on the surface of grinding wheel. The study of grit-workpiece interaction through single grit cutting was an important contribution to describe material removal process in the grinding process. This paper presented a finite element simulation model for the analysis of AISI D2 cutting process using alumina abrasive grit. Finite element simulations of AISI D2 single grit cutting processes were performed using Advantedge^TM software. Results of material deformation, forces, the critical depth of cut, temperature and material removal rate were discussed.

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Periodical:

Advanced Materials Research (Volume 1017)

Pages:

82-87

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1017.82

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Online since:

September 2014

Authors:

Lan Yan*, Feng Jiang, Cong Fu Fang

Keywords:

Critical Depth of Cut, Cutting Force, Cutting Temperature, Material Removal Rate (MRR), Numerical Simulation, Single Grit Cutting

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