Reprint

Advances in Welding Metal Alloys, Dissimilar Metals and Additively Manufactured Parts

Edited by
November 2018
222 pages
  • ISBN978-3-03897-372-0 (Paperback)
  • ISBN978-3-03897-373-7 (PDF)

This is a Reprint of the Special Issue Advances in Welding Metal Alloys, Dissimilar Metals and Additively Manufactured Parts that was published in

Chemistry & Materials Science
Engineering
Summary
Welding technology has been taken for granted as a mature and established technology for too long. However, many new welding technologies have been included among the alternatives to joining materials. They come both from the areas of fusion and solid-state welding. Moreover, a recent approach has offered one more alternative. This is hybrid welding, which couples two or more welding sources in a cooperative or synergic welding mode. Welding engineers and scientists have the task to understand which is the best technology for a specific application. This task requires deep knowledge and great intelligence to tackle the challenge of producing light and smart structures and products.In this book, a glimpse of recent developments in metal alloy welding is presented. Laser, friction, and arc welding are the main protagonists of the papers that are included. Processes, materials, and tools are described and studied along with investigation procedures and numerical simulations.This book will make you aware of most of the subjects discussed in the scientific community and new potentialities of welding as a leading technology in manufacturing.I hope you enjoy reading this Special Issue, "Advances in Welding Metal Alloys, Dissimilar Metals and Additively Manufactured Parts".
Format
  • Paperback
License and Copyright
© 2019 by the authors; CC BY license
Keywords
alloy 617; low cycle fatigue (LCF); gas tungsten arc welding (GTAW); weldment; high temperature; dynamic strain aging (DSA); life prediction; fracture behavior; dissimilar friction weld; titanium alloy; evolution of microstructure; mechanical property; FeNi; UBM; IMCs; magnesium; fusion welding; CaO-added filler; fumes; microstructure; laser welding; part-to-part gap; welding direction; process control; laser welding; NdFeB magnet; magnetic property; process parameters; pulsed laser welding; filler wire; Hastelloy C-276 thin sheet; weld geometry; microstructure; dissimilar material welding; Ni-based Alloy 617; 12Cr steel; mechanical properties; microstructural characterization; titanium welding; weld pores; cracks; TIG dressing; ductility; laser welding; dissimilar weld; parameter optimization; microstructural examination; ultrafine grained structure; dissimilar friction stir welding; dynamic recrystallization; aluminum alloy; dissimilar α-β titanium alloys; FSW; microstructure; mechanical properties; 316 stainless steel; 4J29 Kovar alloy; nickel; diffusion bonding; dissimilar resistance spot welding; quenching and partitioning steel; transformation induced plasticity steel; welding parameters; welding monitoring; mechanical strength; microstructures; fracture modes; friction stir welding; titanium; tool wear; microstructure; weldability; pre-heating; ductile cast iron; microstructure; root pass; liquefied natural gas; nickel steel; weldments; crack tip opening displacement; n/a