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Welding Metallurgy of Aluminium Alloys: Design,Processes and Simulations [Kõva köide]

, , , (University of Porto, Portugal)
  • Formaat: Hardback, 192 pages, kõrgus x laius: 244x170 mm
  • Ilmumisaeg: 17-Sep-2025
  • Kirjastus: Blackwell Verlag GmbH
  • ISBN-10: 3527353348
  • ISBN-13: 9783527353347
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Welding Metallurgy of Aluminium Alloys: Design,Processes and SimulationsSuurem pilt
  • Formaat: Hardback, 192 pages, kõrgus x laius: 244x170 mm
  • Ilmumisaeg: 17-Sep-2025
  • Kirjastus: Blackwell Verlag GmbH
  • ISBN-10: 3527353348
  • ISBN-13: 9783527353347
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9783527353347.html
A must-have guide to welding aluminium alloys for optimized performance and precision

Aluminum alloys, widely used across industries due to their high specific strength and corrosion resistance, require precise joining methods to maintain their structural integrity. Welding Metallurgy of Aluminium Alloys: Design, Processes, and Simulations provides a detailed exploration of aluminium alloy welding, addressing the science, technology, and applications behind this essential process. Integrating essential theory and real-world practice, this comprehensive volume equips readers with the knowledge to analyze, optimize, and execute welding processes while preventing common defects that compromise weld quality.

Presenting insights rooted in over 450 research articles, an experienced team of researchers and practitioners examines microstructural evolution, thermal dynamics, defect mechanisms, and more. Detailed chapters cover various welding methods, including arc, beam, resistance, and solid-state welding, while providing clear guidance on topics ranging from mitigating hot cracking and porosity to simulating temperature distributions and residual stress.

Providing the knowledge to tackle an array of welding challenges, Welding Metallurgy of Aluminium Alloys:





Features in-depth case studies and simulation methodologies that enable practical application and innovation in diverse industries Explores mechanisms behind welding defects and presents strategies for prevention and mitigation Discusses simulations for temperature distribution, thermal history, residual stress, and material flow during welding processes Highlights microstructural changes and metallurgical transformations unique to each welding process covered Includes extensive reference material, such as equations for heat conductivity analysis and defect prediction tailored to aluminium welding

An indispensable resource for designing robust, high-performance welds, Welding Metallurgy of Aluminium Alloys: Design, Processes and Simulations is ideal for undergraduate and graduate courses in materials science, mechanical engineering, and welding technology, as well as a must-have reference for welding specialists, materials scientists, and construction engineers. It is also a vital addition to any technical library supporting professional development and academic programs focused on advanced joining processes.
1. Aluminum alloys - classification, properties, standard
2. Arc welding processes -
MIG, TIG, Plasma, CMT
3. Beam welding processes - laser beam, electron beam
4. Resistance welding processes
5. Solid state welding processes - friction stir welding, friction welding,
ultrasonic welding
Lucas F.M. da Silva is a Full Professor in Mechanical Engineering at the University of Porto, Portugal. He holds a PhD in structural adhesive bonding of composites from the University of Bristol and has published over 400 research articles and 43 books. He is the Editor-in-Chief of multiple academic journals and has organized international conferences on advanced joining technologies.

Reza Beygi is a Principal Investigator at the National Institute of Statistics and Geography (INEGI), Mexico. He specializes in dissimilar material joining and microstructural evolution during welding. He has authored more than 50 publications and a book on welding simulations. Beygi is an editor for the Journal of Advanced Joining Processes and has supervised numerous MSc theses in welding metallurgy.

Eduardo André de Sousa Marques is an Associate Professor at the University of Porto and an investigator at INEGI. His research focuses on mechanical behavior, extreme condition testing, and numerical modeling of structural joints. With over 140 published articles and numerous books, his contributions to materials science and joining technologies are widely recognized.

Ricardo João Camilo Carbas is a post-doctoral researcher at INEGI specializing in adhesively bonded joints and welding technologies. He has published 92 articles and holds six patents in material bonding. A member of several editorial boards, Carbas consults for major companies and organizes international conferences on materials and advanced joining processes.