INVESTIGATION OF SURFACE ROUGHNESS IN MODERN FINISHING PROCESS USING PERMANENT MAGNET

Baqer A. Ahmed, Mohammed S. Jabbar
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Abstract

This work introduces an investigation of the surface roughness (Ra) during flat plate machining utilizing magnetic abrasive finishing process (MAF). In this study three parameters (Machining time, Mesh size, and Gap) were studied. The MAF tool is made from permanent magnet and the abrasive powder is consisting of 40% of SiC and 60% Fe powder with three Mesh size (100, 250, and 400 µm). The Taguchi L9 array was used in designing the experiments. The results show that the increasing machining time caused a decrease in Ra. The increase in mesh size and the gap will increase the surface roughness. The dominant factor that affect the surface roughness was the machining time due to enough time to machine the target surface.
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现代永磁精加工中表面粗糙度的研究
本文介绍了利用磁磨料精加工技术(MAF)加工平板时表面粗糙度(Ra)的研究。在这项研究中,三个参数(加工时间,网格尺寸和间隙)进行了研究。MAF工具由永磁体制成,磨料粉末由40%的SiC和60%的Fe粉末组成,具有三种Mesh尺寸(100、250和400µm)。实验设计采用田口L9阵列。结果表明,随着加工时间的延长,Ra含量降低。网目尺寸和间隙的增加会增加表面粗糙度。影响表面粗糙度的主要因素是加工时间,因为加工目标表面需要足够的时间。
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来源期刊
CiteScore
0.10
自引率
0.00%
发文量
19
审稿时长
12 weeks
期刊最新文献
STUDY THE EFFECT OF EXTERNAL CRACK ON THE MECHANICAL PROPERTIES OF COMPOSITE MATERIALS EVALUATION OF EFFECT OF PARAMETER ON SINGLE POINT INCREMENTAL FORMING OF TITANIUM A POROUS MEDIA APPROACH FOR NUMERICAL OPTIMISATION OF THERMAL WHEEL INVESTIGATION OF SURFACE ROUGHNESS IN MODERN FINISHING PROCESS USING PERMANENT MAGNET HUMAN-COMPUTER INTERACTION: ENHANCING USER EXPERIENCE IN INTERACTIVE SYSTEMS
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