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Advances in Manufacturing

17.03.2024

Study of atomized discharge ablation-chemical composite machining of SiCp/Al

verfasst von: Xiu-Lei Yue, Zhi-Dong Liu, Shun-Cheng Zhou, Zi-Long Feng

Erschienen in: Advances in Manufacturing

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Abstract

Electrical discharge-induced ablation machining utilizes the significant chemical energy released by the combustion of oxygen with metals to remove materials, thereby greatly enhancing the material removal rate (MRR). However, in the case of discharge ablation machining of silicon carbide particle-reinforced aluminum matrix composites (SiCp/Al), the effect of oxygen can easily result in the formation of poorly conductive oxides, which in turn affect the machining stability and adversely impact the MRR and quality of the machining surface. To address this problem, this study proposes the use of sodium carbonate (Na2CO3) solution as the atomization medium to chemically dissolve the oxide during processing to achieve the effect of atomized discharge ablation-chemical composite processing. The study found that the Na2CO3 solution facilitated high-temperature chemical etching behavior in the SiCp/Al atomized discharge ablation process. The Na2CO3 solution reacted chemically with and etched away the recalcitrant oxide that formed in the SiCp/Al process area during machining, thereby ensuring efficient and continuous electrical discharge ablation machining. We applied the atomized discharge ablation-chemical composite machining method to mill SiCp/Al. The experimental results showed that the MRR was 2.66 times higher than that of electrical discharge machining (EDM) and 1.98 times higher than that of conventional atomized discharge ablation milling. Moreover, the relative electrode wear ratio was reduced by 76.01% compared with that of EDM and 82.30% compared with that of conventional atomized discharge ablation machining.

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Metadaten
Titel
Study of atomized discharge ablation-chemical composite machining of SiCp/Al
verfasst von
Xiu-Lei Yue
Zhi-Dong Liu
Shun-Cheng Zhou
Zi-Long Feng
Publikationsdatum
17.03.2024
Verlag
Shanghai University
Erschienen in
Advances in Manufacturing
Print ISSN: 2095-3127
Elektronische ISSN: 2195-3597
DOI
https://doi.org/10.1007/s40436-023-00480-y

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