Investigation of machining rate and roughness for rotary ultrasonic drilling of Inconel 718 alloy with slotted diamond metal bonded tool

Int. J. Manuf. Res. Pub Date : 2018-06-30 DOI:10.1504/IJMR.2018.092779

Dipesh Popli, M. Gupta

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引用次数: 2

Abstract

Super alloy has extensive engineering applications in nuclear industries owing to its outstanding performance characteristics at elevated temperature. More than 30% of consumption in nuclear industries is super alloy. A number of holes are required to be drilled into super alloys for their final stage assembly. During conventional machining process, excessive heat is generated, which is the cause of heat treated zone that further affect the life and performance of the product. To overcome this difficulty, a rotary ultrasonic machining method came into existence to machine super alloys by hybrid cutting action (vibratory and rotary) of diamond impregnated core drill. This study focuses on the machining characteristics of super alloy by RUM process. The empirical modelling of process parameters of RUM is carried out for super alloy (Inconel 718) using an experimental design approach called response surface methodology. Material removal efficiency of RUM and surface topography of the machined material are studied. The results reported that for quality and productivity aspect, the feed rate in RUM is found a most critical factor. [Received 5 April 2017; Revised 10 June 2017; Accepted 26 June 2017]

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开槽金刚石金属结合刀旋转超声钻削Inconel 718合金的加工速率和粗糙度研究

高温合金因其优异的高温性能在核工业中有着广泛的工程应用。核工业中30%以上的消耗量是超级合金。在超级合金的最后阶段组装中，需要钻许多孔。在常规的加工过程中，产生过多的热量，这是热处理区产生的原因，进一步影响了产品的寿命和性能。为了克服这一困难，利用金刚石浸渍岩心钻的振动和旋转混合切削作用加工超级合金的旋转超声加工方法应运而生。本文主要研究了高温合金的RUM加工特性。采用响应面法的实验设计方法对高温合金(Inconel 718)的RUM工艺参数进行了经验建模。研究了RUM的材料去除效率和加工材料的表面形貌。结果表明，在质量和生产率方面，进料速度是影响RUM质量和生产率的最关键因素。[收到2017年4月5日;2017年6月10日修订;接受2017年6月26日]

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Int. J. Manuf. Res.

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