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Conventional and Powder Mixed Electro-Discharge Machining
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Biomedical Applications
Vorbestellbar | Lieferzeit: Vorbestellbar - Erscheint laut Verlag im/am 03.09.2024. I
Erstverkaufstag: 03.09.2024
Artikel-Nr:
9781032452760
Veröffentl:
2024
Erscheinungsdatum:
03.09.2024
Seiten:
182
Autor:
Ahmad Majdi Abdul-Rani
Format:
234x156x0 mm
Sprache:
Englisch
Beschreibung:
Ahmad Majdi Abdul-Rani has a PhD in Mechanical Engineering from Loughborough University. His research interests include biomedical engineering, additive manufacturing, and reverse engineering. He heads the Advanced Biomedical Materials and Manufacturing group at Universiti Teknologi PETRONAS. He is Vice-chairman of the American Society of Mechanical Engineers - Malaysian Chapter and a member of ASME International, the Society of Manufacturing Engineers, and the Malaysian Society for Engineering and Technology. He recently received the U.K.'s Leadership in Innovation Fellowship - Newton Award. He has three patents, over 150 publications, and has secured several research grants. He has been with the Mechanical Engineering Department at Universiti Teknologi PETRONAS since 1998, previously serving as Head from 2009-2011. He has supervised over 20 postgraduate students.
This book presents the evolution of electro-discharge machining (EDM) process from conventional EDM to powder mixed EDM with emphases on the biomedical applications. It discusses the theory behind each process and their applications in the field of biomedical applications, and background to EDM processes supported by detailed case studies.
1. Conventional EDM of titanium and molybdenum alloys. 2. PMEDM of Titanium and Molybdenum Alloys. 3. Surface Analysis of Magnesium Alloy Processed Using C-EDM and PM-EDM Method. 4. Innovative Biomimetic Electro-Discharge Coating on Bulk Metallic Glass for Potential Orthopaedic Application. 5. Material Transfer Rate during Electro discharge Process: Modelling and Optimization. 6. Arc Discharge Method For Aluminium Oxide Nanoparticle Synthesis. 7. Development of Electrical Discharge Machining Servomechanism System Towards Biomedical Application. 8. Influential process parameters associated with powder-mixed electric discharge coating technique applied to 316L Steel. 9. Multi-objective optimization of hydroxyapatite-added EDM process for 316L SS in the context of biomedical applications.