Precision wire electrochemical machining of thick structures in powder superalloy René 88DT using a partially insulated tube electrode

IF 4.2 2区工程技术 Q2 ENGINEERING, MANUFACTURING

Advances in Manufacturing Pub Date : 2023-05-09 DOI:10.1007/s40436-023-00441-5

Cheng Tang, Zhao Han, Zhong-Qi Zhou, Xiao-Long Fang

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Abstract

Wire electrochemical machining (WECM) is a potential method for manufacturing macrostructures from difficult-to-cut materials, such as turbine slots, with good surface integrity and low costs. In this study, a novel tube electrode with array holes in the front and insulation in the back was applied using WECM to improve the machining precision and efficiency. Additionally, assisted by an immersion electrolyte and axial flushing, the electrolyte-deficient gap was supplemented to achieve the cutting of a very thick workpiece. The simulation results indicated that this method could effectively reduce the machining gap and improve the uniformity of the electric- and flow-field distributions. Experiments verified that when the uninsulated range (machining angle) was reduced from 360° to 90°, the side machining gap was reduced from 462.5 µm to 175 µm. Finally, using optimized machining parameters, array slits with gaps as small as (175±10) μm were machined on a powder superalloy René 88DT sample with a thickness of 10 mm at a feed rate of 16 µm/s. The feasibility of fabricating complex profiles using this method was verified using a self-designed servo device.

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用部分绝缘管电极精密线材电化学加工粉末高温合金René88DT中的厚组织

金属丝电化学加工（WECM）是一种由难以切割的材料（如涡轮槽）制造宏观结构的潜在方法，具有良好的表面完整性和低成本。在本研究中，使用WECM应用了一种新型的管电极，该管电极的前面有阵列孔，后面有绝缘层，以提高加工精度和效率。此外，在浸入电解液和轴向冲洗的辅助下，补充了电解液不足的间隙，以实现对非常厚的工件的切割。仿真结果表明，该方法可以有效地减小加工间隙，提高电场和流场分布的均匀性。实验证明，当非绝缘范围（加工角度）从360°减小到90°时，侧面加工间隙从462.5µm减小到175µm。最后，使用优化的加工参数，在厚度为10mm的粉末高温合金René88DT样品上以16µm/s的进给速率加工出间隙小至（175±10）μm的阵列狭缝。用自行设计的伺服装置验证了用这种方法制造复杂轮廓的可行性。

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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来源期刊

Advances in Manufacturing Materials Science-Polymers and Plastics

CiteScore

9.10

自引率

3.80%

发文量

274

期刊介绍： As an innovative, fundamental and scientific journal, Advances in Manufacturing aims to describe the latest regional and global research results and forefront developments in advanced manufacturing field. As such, it serves as an international platform for academic exchange between experts, scholars and researchers in this field. All articles in Advances in Manufacturing are peer reviewed. Respected scholars from the fields of advanced manufacturing fields will be invited to write some comments. We also encourage and give priority to research papers that have made major breakthroughs or innovations in the fundamental theory. The targeted fields include: manufacturing automation, mechatronics and robotics, precision manufacturing and control, micro-nano-manufacturing, green manufacturing, design in manufacturing, metallic and nonmetallic materials in manufacturing, metallurgical process, etc. The forms of articles include (but not limited to): academic articles, research reports, and general reviews.