Inconel 617合金激光打孔工艺参数研究

IF 0.6 4区 工程技术 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Lasers in Engineering Pub Date : 2002-01-01 DOI:10.1080/08981500290022743
B. Yilbas
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引用次数: 11

摘要

为了提高激光钻孔的实际应用,对最终产品质量的评估是必不可少的。用统计方法分析井眼几何截面特征是评价井眼质量的方法之一。本研究以激光钻孔加工Inconel 617合金为研究对象,采用基于统计技术的析因分析方法确定操作参数的显著性水平。所选择的参数有钻孔环境压力、激光输出能量、聚焦透镜的聚焦设置和工件厚度。为了完成析因分析,考虑了每个参数的四个水平。将激光钻孔横截面在显微镜下观察。介绍了一种评价孔截面几何特征的标记方法。研究发现,工件厚度和焦点设置是影响孔截面形成的最重要参数。…
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Parametric study for laser hole drilling of Inconel 617 alloy
In order to improve the practical laser hole drilling application, the assessment of the end product quality is essential. One of the methods of assessing the hole quality is to analyze the features of hole geometric sections by statistical methods. In the present study, laser hole drilling in Inconel 617 alloy is considered and the factorial analysis based on the statistical technique is introduced when identifying the significance levels of the operational parameters. The parameters selected are drilling ambient pressure, laser output energy, focus settings of focusing lens, and workpiece thickness. In order to complete the factorial analysis, four levels of each parameter are taken into account. The laser drilled holes were cross-sectioned and examined under the microscope. A marking scheme is introduced to evaluate the geometric features of the hole cross-section. It is found that the workpiece thickness and focus setting are the most significant parameters for the formation of hole cross-section. The...
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来源期刊
Lasers in Engineering
Lasers in Engineering 工程技术-材料科学:综合
CiteScore
1.00
自引率
20.00%
发文量
0
审稿时长
3.4 months
期刊介绍: Lasers in Engineering publishes original (primary) research articles, reviews, short communications and letters on all aspects relating to the application of lasers in the many different branches of engineering and related disciplines. The topics covered by Lasers in Engineering are the use of lasers: in sensors or measuring and for mapping devices; in electrocomponent fabrication; for materials processing; as integral parts of production assemblies; within the fields of biotechnology and bioengineering; in micro- and nanofabrication; as well as the materials and processing aspects of techniques such as cutting, drilling, marking, cladding, additive manufacturing (AM), alloying, welding and surface treatment and engineering. Lasers in Engineering presents a balanced account of future developments, fundamental aspects and industrial innovations driven by the deployment of lasers. Modern technology has a vitally important role to play in meeting the increasingly stringent demands made on material and production systems. Lasers in Engineering provides a readily accessible medium for the rapid reporting of new knowledge, and technological and scientific advances in these areas.
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