Simulation and Experiment on the Residual Stress in Super-High Speed Grinding

Yue Ming Liu; Ya Dong Gong; Wei Ding; Ting Chao Han

doi:10.4028/www.scientific.net/AMR.135.238

Paper Titles

Study on the Process of Pure Shearing and Fracture for AISI-1020 and AISI-1045 Blanking with Negative Clearance
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Experimental and FEM Study on Surface Quality in High Grade Petroleum Pipe Turning
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An Investigation on PRMMC Polishing with Electrochemical Mechanical Machining Process
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Surface Roughness and Cutting Force of Inconel 718 Machined by Different Cutting Tools
p.232

Simulation and Experiment on the Residual Stress in Super-High Speed Grinding
p.238

Investigation of Surface Roughness during Turning Process Based on Response Surface Methodology
p.243

Optimization of Magneto Rheological Damper Based on the First Order Optimization
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Study on Super-Precision Grinding Processing to the Spindle with CBN Slipstone
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Experimental Study on Ultrasonic Vibration Dressing Wheel
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 135Simulation and Experiment on the Residual Stress...

Simulation and Experiment on the Residual Stress in Super-High Speed Grinding

Abstract:

In this paper, effective finite element model have been developed to simulation the plastic deformation cutting in the process for a single particle via the software of ABAQUS, observing the residual stress distribution in the machined surface, the experiment of grinding cylindrical workpiece has been brought in the test of super-high speed grinding, researching the residual stress under the machined surface by the method of X-ray diffraction, which can explore the different stresses from different super-high speed in actual, and help to analyze the means of reducing the residual stresses in theory.

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Periodical:

Advanced Materials Research (Volume 135)

Pages:

238-242

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.135.238

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Online since:

October 2010

Authors:

Yue Ming Liu, Ya Dong Gong, Wei Ding, Ting Chao Han

Keywords:

Machining Speed, Residual Stress, Simulation, Super-High Speed Grinding

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