The book covers novel applications in spark erosion based machining processes, ranging from production of micro electro mechanical systems to machining of aerospace materials. The principle, methodology and mechanism of spark erosion-based machining processes and their hybrid versions are described.
The book covers novel applications in spark erosion based machining processes, ranging from production of micro electro mechanical systems to machining of aerospace materials. The principle, methodology and mechanism of spark erosion-based machining processes and their hybrid versions are described.
Neelesh Kumar Jain is Professor in Mechanical Engineering and Coordinator of Center of Excellence in Gear Engineering at Indian Institute of Technology Indore (India). His research interests are additive manufacturing of metallic materials, advanced machining processes, high-quality gear finishing, miniature and non-circular gear manufacturing, sustainable gear machining, micro-joining of thin sheets, and modeling and optimization of manufacturing processes. He has authored 5 books and 15 book chapters and more than 125 research papers in different international journals and conference proceedings. He has guided 10 PhD and 25 MTech theses. He has served as Dean of Academic Affairs for 9 years and Acting/Officiating Director of IIT Indore for more than 2 years. Kapil Gupta is an Associate Professor in the Dept. of Mechanical and Industrial Engineering Technology at the University of Johannesburg. He obtained Ph.D. in mechanical engineering with specialization in Advanced Manufacturing. Advanced machining processes, sustainable manufacturing, green machining, precision engineering and gear technology are the areas of his interest. He has authored several international articles, and also authored and edited international books on hybrid machining, gear manufacturing, micro and precision manufacturing, high speed machining, and sustainable manufacturing.
Inhaltsangabe
PART-I: INTRODUCTION. Spark Erosion Machining. PART-II: MACHINING OF BIOMEDICAL COMPONENTS, SHAPE MEMORY MATERIALS, AND AEROSPACE ALLOYS. Wire Spark Erosion Machining of Shape Memory Materials. Spark Erosion based Manufacturing of Biomedical Components. Spark Erosion Machining of Aerospace Alloys. PART III: ADVANCED TOPICS IN SEM. Wire Spark Erosion Grinding. Spark Erosion Based Hybrid Processes. Vibroacoustic Diagnostics of Spark Erosion Based Processes. Improving Sustainability of SE-Based Processes. Optimization of Parameters of Spark Erosion Based Processes.
PART-I: INTRODUCTION. Spark Erosion Machining. PART-II: MACHINING OF BIOMEDICAL COMPONENTS, SHAPE MEMORY MATERIALS, AND AEROSPACE ALLOYS. Wire Spark Erosion Machining of Shape Memory Materials. Spark Erosion based Manufacturing of Biomedical Components. Spark Erosion Machining of Aerospace Alloys. PART III: ADVANCED TOPICS IN SEM. Wire Spark Erosion Grinding. Spark Erosion Based Hybrid Processes. Vibroacoustic Diagnostics of Spark Erosion Based Processes. Improving Sustainability of SE-Based Processes. Optimization of Parameters of Spark Erosion Based Processes.
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