Your search keyword '"Wang, Zhenlong"' showing total 2 results

1. Development of a reversible machining method for fabrication of microstructures by using micro-EDM

Author

Peng, Zilong, Wang, Zhenlong, Dong, Yinghuai, and Chen, Hui

Subjects

*ELECTRIC metal-cutting, *MICROFABRICATION, *MICROSTRUCTURE, *MICROMACHINING, *SEPARATION (Technology), *SURFACES (Technology)

Abstract

Abstract: A new micromachining method for the fabrication of micro-metal structures by using micro-reversible electrical discharge machining (EDM) was investigated. The reversible machining combines the micro-EDM deposition process with the selective removal process, which provides the ability of depositing or removing metal material using the same micro-EDM machining system. From the discharge mechanism of micro-EDM, the process conditions of micro-EDM deposition were analyzed firstly. Using the brass and steel materials as a tool electrode, the micro-cylinders with 200μm in diameter and height-to-diameter ratio of more than 5 were deposited on a high-speed steel surface. Then the machining procedure was transformed easily from deposition to selective removal process by switching the process conditions. Different removal strategies including micro-EDM drilling and micro-EDM milling were used in the machining. Micro-holes with 80μm in diameter are drilled successfully in the radial direction of the deposited micro-steel cylinder. Also, a brass square column with 70μm in side length and 750μm in height, and a micro-cylinder with 135μm in diameter and 1445μm in height are obtained by using micro-EDM milling. Finally, the characteristics of the deposited material were analyzed. The results show that the material components of a deposited micro-cylinder are almost the same as those of the tool electrode, and the metallurgical bonding has been formed on the interface. In addition, the Vickers-hardness of 454Hv of the steel deposited material is higher when compared to the hardness of 200Hv of the raw steel electrode. [Copyright &y& Elsevier]

Published

2010

2. Electrical discharge machining of micro grooves using laminated disc electrodes made of Cu and Sn foils.

Author

Lei, Jianguo, Wu, Xiaoyu, Wang, Zhenlong, Xu, Bin, Zhu, Likuan, and Wu, Wen

Subjects

*WORKPIECES, *ELECTRODES, *MACHINING, *MICROSTRUCTURE, *ALLOYS, *MATERIALS

Abstract

Tool electrode wear varying with different materials in electrical discharge machining (EDM) is unavoidable, thus inevitably reducing the machining quality and accuracy of microstructures. To convert this disadvantageous phenomenon into a beneficial process, the paper proposed a wear-variation EDM (WV-EDM) approach to fabricate a laminated disc electrode (LDE) with stable-shape micro channels on the outer edge surface; this electrode was subsequently used to machine micro grooves on workpieces by EDM. The WV-EDM formation of the LDE, the relationship between relative volume wear rate of the disc foils and the machining depth, and flow field distribution in the machining gap of the LDE during processing were investigated. The results show that the method proposed herein could reliably produce LDEs with stable micro channels on the outer edge surfaces that could subsequently be employed to continuously machine micro groove arrays with the same machining depth on the same material workpiece by EDM, and especially LDE reshaping was unnecessary. Additionally, the "pump effect" of the vortex, located in the flow field between micro channels on the LDE and workpiece, was beneficial for debris removal. Using the proposed method, micro groove arrays and columnar microstructures were successfully fabricated on Ti–6Al–4V alloy workpieces. [ABSTRACT FROM AUTHOR]

Published

2019