Same-spot micro-ECM based on constant-accelerated movement of the electrode

• Published in: Materials and manufacturing processes Vol. 39; no. 9; pp. 1236 - 1246
• Main Authors: Chen, Shun-Tong, Chiu, Wei-Jen, Chiu, Chi-Hsien
• Format: Journal Article
• Language: English
• Published: Taylor & Francis 03.07.2024
• Subjects: Constant-accelerated movement; electric flux density; material dissolution rate; Same-spot micro-ECM; upside-down tapered-microhole
• ISSN: 1042-6914; 1532-2475
• DOI: 10.1080/10426914.2024.2311394

An injector nozzle needs a precision upside-down tapered-microhole, and the nozzle material is often a high temperature corrosion resistant alloy that is very difficult to machine. In this study, a same-spot micro-ECM technique with the electrode in "constant-accelerated movement" was proposed. Insulated by electrophoretic deposition, an ultra-fine electrode was inserted deep into the hole and subject gradually to withdrawal from the hole at constant rpm and acceleration. The electric flux intensity acting on the hole-wall gradually decreased and so did the material dissolution rate on the hole-wall, thus creating an upside-down tapered hole with the desired taper-rate. The experiments' results showed that upside-down tapered holes with taper-rates of T(a=1) = 0.094 (Ra 0.593 μm) and T(a = 2) = 0.02 (Ra 0.435 μm) were produced when the electrode was subject to constant-acceleration withdrawal at 1.0 and 2.0 μm/s2, respectively, and respective spray angles of 31° and 23° were created. The proposed technique is commercially promising in industry.