浸没磨料水射流切割Ti6Al4V表面形貌的实验研究

IF 3.9 Q2 ENGINEERING, INDUSTRIAL
Paramjit Mahesh Thakur, Dadarao Niwrutti Raut
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引用次数: 1

摘要

磨料射流技术的一些关键问题是高粗糙度、低光滑区深度和砂粒嵌入。与未浸入式水射流相比,浸入式水射流发散更小,在射流截面处产生更高的能量。因此,本研究考察了两种AWJ条件下压力、穿越速率和距离对粗糙度、光滑区深度和砂粒嵌入的影响。这里采用单因素实验进行实验调查,其中一个因素变化,其他因素保持不变。相比之下,在较低压力(150和200 MPa)、较高穿越速度(300和350 mm/min)和距离(4、5和6 mm)下,浸没式AWJ在光滑区的粗糙度和深度方面都有显著改善。在较低的穿越速度(150和200 mm/min)、较高的压力(300和350 MPa)以及所有水平的距离(2、3、4、5和6 mm)下,砂粒嵌入的显著差异都被观察到。在水下条件下,由于空化引发的冲刷作用使最初嵌入的砂粒被去除,因此砂粒的嵌入量较低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental investigation on surface topography in submerged abrasive waterjet cutting of Ti6Al4V

Some of the key issues with AWJ technology are high roughness, low depth of smooth zone, and grit embedment. When compared to the unsubmerged AWJ, the submerged AWJ gives less divergence and produces higher energy at the cross section of the jet. Hence, this study examined the effects of pressure, traverse rate, and standoff distance on roughness, depth of smooth zone, and grit embedment in both AWJ conditions. Here, single factor experiments are conducted for experimental investigation wherein one factor is varied and the others are kept constant. In comparison, the submerged AWJ gave significant improvement in the roughness and depth of the smooth zone at lower levels of pressure (150 and 200 MPa), higher levels of traverse rate (300 and 350 mm/min) and standoff distance (4, 5 and 6 mm). The significant difference in grit embedment was observed at lower levels of traverse rate (150 and 200 mm/min), higher levels of pressure (300 and 350 MPa), and all the levels of standoff distance (2, 3, 4, 5, and 6 mm). The grit embedment in the submerged condition was lower due to the removal of initially embedded grits due to flushing action produced by cavitation initiation.

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来源期刊
Advances in Industrial and Manufacturing Engineering
Advances in Industrial and Manufacturing Engineering Engineering-Engineering (miscellaneous)
CiteScore
6.60
自引率
0.00%
发文量
31
审稿时长
18 days
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