磨料水射流加工微型齿轮的表面形貌研究

IF 1 4区 工程技术 Q4 ENGINEERING, MECHANICAL International Journal of Surface Science and Engineering Pub Date : 2020-06-24 DOI:10.1504/ijsurfse.2020.10030179
K. Gupta, M. A. Khan, S. Pathak
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引用次数: 0

摘要

本文对磨料水射流加工微型直齿轮的表面形貌进行了研究。水射流压力、磨料流速和间隔距离是研究加工齿轮表面形态(表面粗糙度和形貌)的可变输入参数。根据调查,水射流压力对表面质量有很大影响(贡献率为47%),并被发现是主要的工艺参数。SEM显微照片研究发现,磨损痕和粘着效应是齿轮齿加工表面的主要表面缺陷。用白光光谱仪观察磨损轨迹的最大峰值和最小峰值。在350MPa的水射流压力、225g/min的磨料质量流量和1mm的间隔距离下,获得了平均表面粗糙度为1.08μm的最佳表面形态。目前的工作确定了AWJM工艺在制造高质量微型齿轮方面的潜力。
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Surface morphology investigation of miniature gears manufactured by abrasive water jet machining
In this paper, surface morphology investigation of miniature spur gears manufactured by abrasive water jet machining is discussed. Water jet pressure, abrasive flow rate and stand-off-distance are the varying input parameters to study the surface morphology (surface roughness and topography) of the machined gears. From the investigation, the water jet pressure has highly influenced (with 47% contribution) the surface quality and found as a predominant process parameter. SEM micrograph study found that wear scars and clinging effects are the major surface defects found over the machined surfaces of the gear teeth. Maximum and minimum peaks of the wear tracks are observed with white light spectroscope. The best surface morphology with average surface roughness value 1.08 μm was achieved at 350 MPa water jet pressure, 225 g/min abrasive mass flow rate, and 1mm stand-off distance. The present work identifies the potential of AWJM process for manufacturing of high quality miniature gears.
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来源期刊
CiteScore
1.60
自引率
25.00%
发文量
21
审稿时长
>12 weeks
期刊介绍: IJSurfSE publishes refereed quality papers in the broad field of surface science and engineering including tribology, but with a special emphasis on the research and development in friction, wear, coatings and surface modification processes such as surface treatment, cladding, machining, polishing and grinding, across multiple scales from nanoscopic to macroscopic dimensions. High-integrity and high-performance surfaces of components have become a central research area in the professional community whose aim is to develop highly reliable ultra-precision devices.
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