Optimization Design for Gun-Receiver Materials Belt Grinding Based on Orthogonal Experimental Method and Grey Relational Analysis

Yu Hui Chen; Yun Huang; Yao Huang

doi:10.4028/www.scientific.net/AMR.797.55

Paper Titles

An Experimental Study on Radial-Mode Abrasive Waterjet Turning of Alumina Ceramics
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Kerf Profile Characteristics in Abrasive Air Jet Micromachining
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A Study on Erosion Performance of Monocrystalline Silicon in Ultrasonic Vibration-Assisted Abrasive Water Jet Machining
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Impact Erosion of Quartz Crystals by Micro-Particles in Abrasive Waterjet Micro-Machining
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Optimization Design for Gun-Receiver Materials Belt Grinding Based on Orthogonal Experimental Method and Grey Relational Analysis
p.55

Research on Cutter-Contact Point Data Calculation of Robotic Abrasive Belt Polishing for Gun-Receiver Surface
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Research on the Technology of Nc Abrasive Belt Grinding for the Leading and Trailing Edges of Aero-Engine Blades
p.67

Feasibility Study on Grinding of Titanium Alloys with Electroplated CBN Wheels
p.73

Research of Micro-Abrasive Suspension Jet Erosion Morphology and Material Removal Mechanism
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 797Optimization Design for Gun-Receiver Materials...

Optimization Design for Gun-Receiver Materials Belt Grinding Based on Orthogonal Experimental Method and Grey Relational Analysis

Abstract:

In order to change the current situation of gun-receiver manual polishing, the paper presents a new process for abrasive belt grinding of gun-receiver material (C50 steel). Orthogonal test were conducted with abrasive belt grinding of C50 steel to do research on material removal rate and surface roughness. The best parameter combination to the optimization design which can guarantee high material removal rate and low surface roughness was obtained by using grey relational analysis method and verified by experiments. The above mentioned research not only can improve the removal rate of C50 steel, but also do help to prolong the service life of the belt. Whats more, it can guide a theoretical significance and practical value to the production practice.

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Periodical:

Advanced Materials Research (Volume 797)

Pages:

55-60

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.797.55

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Online since:

September 2013

Authors:

Yu Hui Chen, Yun Huang, Yao Huang

Keywords:

Abrasive Belt Grinding, C50 Steel, Grey Relational Analysis Method, Gun-Receiver, Orthogonal Test

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