Abstract
Generally, gear is an essential component in various electro-mechanical devices, but its manufacturing at the micro-level is challenging. The non-conventional manufacturing processes, such as electro-discharge machining (EDM), is suitable in gear fabrication. Although miniature gears have strict accuracy requirements, the optimization of the EDM process parameters, especially for advanced materials and alloys, is critical. In this paper, Nimonic alloy miniature gears are manufactured using wire-EDM and the effect of process parameters, such as peak current, pulse-off (POFF) time, pulse-on (PON) time, wire tension, and dielectric fluid on the response factors are analyzed. The primary response factors, such as surface roughness, machining time, material removal rate, kerf width (KW), surface microhardness, and depth of microhardness are considered. Also, different dielectric fluids are prepared, which include ethylene glycol mixed demineralized water, oxygen mixed demineralized water, ethylene glycol and alumina powder mixed demineralized water, and ethylene glycol alumina powder and oxygen mixed demineralized water. Furthermore, the effect of process parameters on the multi-response using Pareto ANOVA has been analyzed. The results demonstrate that ethylene glycol mixed demineralized water, as a dielectric fluid, is the most influencing parameter to reduce the surface roughness, machining time, KW, and improve micro-hardness. Thus, dielectric fluid is an essential factor obtained from multi-response optimization followed by peak current, POFF time, wire tension, and PON time.
Highlights
Compact and portable products assume great importance
The results demonstrated that the dimensional deviation is significantly affected by peak current and PON time.[14]
Different dielectric fluids have been developed by mixing ethylene glycol, alumina nano-powder, and oxygen in demineralized water
Summary
Compact and portable products assume great importance. Compactness brings about improved energy efficiency, better handling of parts, less noise, minimized wear and tear, improved aesthetics, and enhanced functionality. Gear is one of the most common components used in micro and nano-electromechanical devices such as watches, micro-turbines/pumps, harmonic drives, instruments used in dental procedures, and medical devices, micromotors, precision measuring instruments, electronic appliances, and so on.[1] conventional manufacturing methods are not suitable for producing such types of parts. Non-traditional machining method such as wire electro-discharge machining (EDM) is used to manufacture such products made of difficult-tomachined alloys/materials.[2,3,4,5] The wire-EDM (WEDM) employs spark energy produced from electric discharge for material removal and is regarded as the process of choice.[6]
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