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Abrasive Water Jet Machining of Composites
This chapter is in the book Abrasive Water Jet Machining of Composites
© 2024 Walter de Gruyter GmbH, Berlin/Boston

© 2024 Walter de Gruyter GmbH, Berlin/Boston

Chapters in this book

  1. Frontmatter I
  2. Contents V
  3. Contributing authors VII
  4. Chapter 1 A comprehensive modern insight and current sustainability status of abrasive water-jet machining of composites 1
  5. Chapter 2 An overview structured on modern prism of abrasive water-jet machining process 17
  6. Chapter 3 Abrasive water-jet machining: current research aspects 35
  7. Chapter 4 Machining of additively manufactured parts through abrasive water-jet machining process 59
  8. Chapter 5 Abrasive water-jet cutting on abaca–kenaf–carbon fiber-reinforced hybrid laminated composite materials 75
  9. Chapter 6 Analytical insights and predictive modeling of erosion in abrasive water-jet machining (AWJM) 91
  10. Chapter 7 Enhancing precision in abrasive water-jet machining using AI and ML techniques 133
  11. Chapter 8 Analyzing the impact of process variables on erosion diameter and taper angle in abrasive water-jet drilling of YSZ-coated Inconel 718 superalloy 165
  12. Chapter 9 Enhancing surface finish in machining Nimonic 263 superalloy using submerged abrasive water-jet cutting 187
  13. Chapter 10 Evaluation of hole features in sustainable abrasive water-jet drilling process 205
  14. Chapter 11 k-Nearest neighbor-based machine learning algorithm to predict the taper angle during abrasive water-jet machining of stainless steel 217
  15. Chapter 12 An insight into the kerf taper, surface properties, and delamination in abrasive water-jet machining (AWJM) process 233
  16. Index 263
https://doi.org/10.1515/9783111240244-toc

Chapters in this book

  1. Frontmatter I
  2. Contents V
  3. Contributing authors VII
  4. Chapter 1 A comprehensive modern insight and current sustainability status of abrasive water-jet machining of composites 1
  5. Chapter 2 An overview structured on modern prism of abrasive water-jet machining process 17
  6. Chapter 3 Abrasive water-jet machining: current research aspects 35
  7. Chapter 4 Machining of additively manufactured parts through abrasive water-jet machining process 59
  8. Chapter 5 Abrasive water-jet cutting on abaca–kenaf–carbon fiber-reinforced hybrid laminated composite materials 75
  9. Chapter 6 Analytical insights and predictive modeling of erosion in abrasive water-jet machining (AWJM) 91
  10. Chapter 7 Enhancing precision in abrasive water-jet machining using AI and ML techniques 133
  11. Chapter 8 Analyzing the impact of process variables on erosion diameter and taper angle in abrasive water-jet drilling of YSZ-coated Inconel 718 superalloy 165
  12. Chapter 9 Enhancing surface finish in machining Nimonic 263 superalloy using submerged abrasive water-jet cutting 187
  13. Chapter 10 Evaluation of hole features in sustainable abrasive water-jet drilling process 205
  14. Chapter 11 k-Nearest neighbor-based machine learning algorithm to predict the taper angle during abrasive water-jet machining of stainless steel 217
  15. Chapter 12 An insight into the kerf taper, surface properties, and delamination in abrasive water-jet machining (AWJM) process 233
  16. Index 263
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