Laser Processing: Engineering Fundamentals and Applications
Editat de Petr Hauschwitzen Limba Engleză Paperback – sep 2026
The second part of the book features chapters discussing different laser technologies in practice, such as micromachining, surface functionalization, engraving, drilling, cutting, cleaning, welding, additive manufacturing and more. The book concludes with chapters that outline the use of computational simulations in laser applications and safety considerations.
- Focuses on practical explanations of principles and applications, providing a clear understanding on how laser processing technologies work in practice and how to effectively use them
- Provides clear and actionable information on how to implement laser processing in a variety of different applications, highlighting common challenges and solutions
- Empowers informed decision-making when it comes to choosing which laser technologies to adopt
- Covers a wide range of laser processing applications, including micromachining, engraving, cutting, cleaning, drilling, welding, additive manufacturing, and more
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Specificații
ISBN-13: 9780443541773
ISBN-10: 0443541779
Pagini: 400
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443541779
Pagini: 400
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Cuprins
Part I – Fundamentals of Laser Technology
1. How a Laser Works – A Basic Quantum Mechanics Perspective
2. Open Resonator
3. Gaussian Beam
4. Laser Generation Modes
5. Generation of Ultrashort Pulses
6. Generation of New Wavelengths
7. Types of Lasers
8. Fundamentals of Theory for Laser Applications
9. Process Parameters
Part II – Laser Technologies in Practice
10. Micromachining
11. Surface Functionalization
12. Laser Engraving
13. Laser Drilling
14. Laser Cutting
15. Laser Marking
16. Laser Cleaning
17. Laser Hardening
18. Laser Welding
19. Laser Cladding and Metal Additive Manufacturing
20. Laser Shock Peening (LSP)
21. Laser-Induced Breakdown Spectroscopy (LIBS)
22. Computer Simulations and Their Use
23. Safety When Working with Lasers
1. How a Laser Works – A Basic Quantum Mechanics Perspective
2. Open Resonator
3. Gaussian Beam
4. Laser Generation Modes
5. Generation of Ultrashort Pulses
6. Generation of New Wavelengths
7. Types of Lasers
8. Fundamentals of Theory for Laser Applications
9. Process Parameters
Part II – Laser Technologies in Practice
10. Micromachining
11. Surface Functionalization
12. Laser Engraving
13. Laser Drilling
14. Laser Cutting
15. Laser Marking
16. Laser Cleaning
17. Laser Hardening
18. Laser Welding
19. Laser Cladding and Metal Additive Manufacturing
20. Laser Shock Peening (LSP)
21. Laser-Induced Breakdown Spectroscopy (LIBS)
22. Computer Simulations and Their Use
23. Safety When Working with Lasers