Advanced Welding Technology in Metals

doi:10.3390/books978-3-0365-5676-5

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Advanced Welding Technology in Metals

Edited by

November 2022

446 pages

ISBN978-3-0365-5675-8 (Hardback)
ISBN978-3-0365-5676-5 (PDF)

https://doi.org/10.3390/books978-3-0365-5676-5

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This book is a reprint of the Special Issue Advanced Welding Technology in Metals that was published in

Chemistry & Materials Science

Engineering

Summary

Welding is widely used by both academia and industry to create similar and dissimilar joints aiming to create a complex shape structure and to couple the mechanical properties of different materials into a single monolithic structure.

In this book, a collection of peer-reviewed works on the welding of advanced engineering alloys is presented. Both solid-state and fusion-based welding technologies are presented. These works employed advanced microstructure characterization to evaluate how the selection of process parameters impacts the microstructure and mechanical properties of the welded joints. Moreover, three comprehensive review works are also included, providing an in-depth overview of distinct topics.

We hope that this collection of works is of interest to the community so that welding technologies continue to grow further in the future.

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Hardback

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Keywords

friction stir welding; dissimilar metals; temperature; process conditions; guidelines; resistance heat-assisted ultrasonic welding; mechanical properties; fracture morphology; intermetallic compounds; microstructure; double-pulsed; robot operation; microstructure; fuzzy comprehensive evaluation; orthogonal experimental design; short-circuiting gas metal arc welding; waveform control method; weld pool oscillation and flow; microstructure; high speed photograph; image processing; continuous wavelet transform; K-TIG; heat input; weld formation; tensile properties; welding procedure optimisation; friction stir welding; tungsten inert gas welding; friction stir processing; dissimilar aluminium alloys joints; dissimilar metal joints; welding; high entropy alloys; laser welding; friction stir welding; microstructure; review; tensile strength; flexural strength; friction stir welding; microstructure; dissimilar aluminium alloys; laser welding; numerical finite-element modeling; analytical Rosenthal equation; thermal regime; microstructure; AA5456; aluminum alloy; fiber laser-MIG hybrid; CMT; MIG; hybrid joints; microstructure; hardness; laser welding; ASTM A553-1 (9% nickel steel); penetration shape; Bead on Plate (BOP); pulsed GMAW; droplet transfer; weld bead formation; droplet impact force; double-pulsed gas metal arc welding (DP-GMAW); droplet impingement pressure; weld pool oscillation; grain refinement; constitutional supercooling; deep neural network; high strength steel; laser beam welding; penetration; quality assessment; spectrometer; friction stir welding; welding seam root; metal flow behavior; root flaw; pin length; Incomplete penetration; weak connection; real time; infrared thermography; camera; tensile strength; microhardness; plasma arc welding; hot wire; laser oscillating welding; high temperature titanium alloy; microstructure; mechanical properties; laser impact welding; interfacial bonding mechanism; interface wave; diffusion; TA1/Q235B composite sheets; rolling temperature; explosive welding; microstructures; mechanical properties; friction stir welding; dissimilar welding; aluminum; mechanical properties; fracture; friction welding; Ti-6Al-4V; nitinol; intermetallic compound; fractography; dissimilar metal joining; dissimilar friction stir welding; AA2024-T4/AA7075-T6Al alloys; t-butt joints; microstructure evaluation; EBSD; fracture surfaces; friction stir welding; dissimilar welding; aluminum; mechanical properties; microstructure; texture; fracture; investment casting; alloy 718; hot cracking mechanism; Varestraint test; laser beam welding