Welding, Joining and Coating of Metallic Materials

doi:10.3390/books978-3-03936-727-6

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Welding, Joining and Coating of Metallic Materials

Edited by

August 2020

294 pages

ISBN978-3-03936-726-9 (Hardback)
ISBN978-3-03936-727-6 (PDF)

https://doi.org/10.3390/books978-3-03936-727-6

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This book is a reprint of the Special Issue Welding, Joining and Coating of Metallic Materials that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

This book is a collection of state-of-the-art research works in the field of materials science. Specifically, the works deal with issues related to the welding, joining and coating of metallic materials. These methods are known as main processes in the field of metallurgy, and are usually applied in order to solve complex problems of joining metals or the fabrication of metallic surfaces with required properties and performance. The focus of this book is on metals such as aluminum, magnesium, titanium, various types of steel, intermetallics and shape memory alloys. These scientific works address microstructural evaluation, as well as the performance of the produced joints and coatings. Scientists from all over the globe have presented novel advances and possible solutions for metallic materials joints and coatings for applications in the automotive, aerospace, chemical and medical industries, among others.

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Keywords

abrasive wear; nanocrystalline layers; abrasion resistant plate; deposit weld; induction brazing; elements diffusion; microstructural evolution; shear strength; stainless steel; micro arc oxidation; titanium coating; titanium oxide; molten salt; NiTi shape memory alloys; microstructural characterization; failure behavior; fracture morphology; ultrasonic spot welding; reverse transformation; grain growth of reversed austenite; welding thermal cycle; advanced medium Mn steels; impact toughness; temperature field; dendritic morphology; finite element; solute concentration; cellular automaton; Resistance spot welding; galvanized dual phase steel; microstructure; mechanical properties; weld formation; Al–Li alloys; laser welding; weld metal; base metal; grain orientation; texture; CVD diamond; diffusion; Fe–C interaction; aluminum-steel blanks; intermetallic layer; cold metal transfer; welding simulation; dissimilar welding; multimaterial car body; material constraint; effect range; fracture resistance curve; strain field; center crack; friction stir welding; dissimilar joints; metallurgical bonding microstructure; the Weibull model; failure strength; engineering reliability; GMAW; CW-GMAW; Narrow gap welding; sidewall penetration; high strength steel; X80; coating; controlled deposition rate; EB-PVD; morphology; topography; wettability; TLP Bonding; Mg alloy; Ti alloy; coatings; Zinc; shear strength; duplex treatment; plasma nitriding; hard coating; tool steel; VPPA welding; keyhole; digging process; plasma arc pressure; electrode energy balance; X-ray transmission system; intermetallic compound; linear friction welding; microstructure; heat treatment; variable polarity plasma arc welding (VPPAW); weld formation; pulsed plasma gas; arc voltage; Ni₃Al; transient liquid phase bonding; stress concentration; crystal orientation; finite element analysis; micro arc oxidation; current pulse frequency; Ti-6Al-4V alloy; titanium oxide; corrosion resistance; welding; solidification; coating; metals; materials properties; build-up