Reprint

Additive Manufacturing of Metals

Edited by
May 2021
244 pages
  • ISBN978-3-0365-0698-2 (Hardback)
  • ISBN978-3-0365-0699-9 (PDF)

This book is a reprint of the Special Issue Additive Manufacturing of Metals that was published in

Chemistry & Materials Science
Engineering
Summary
This book is an exciting collection of research articles that offer a unique view into the fast developing field of metal additive manufacturing, providing insights into this advanced manufacturing technology. The articles span recent advances in metal AM technologies, and their application to a wide range of metals, exploring how the processing parameters offer unique material properties. This book encapsulates the state of the art in this rapidly evolving field of technology and will be a valuable resource for researchers in the field, from Ph.D. students to professors, and through to industrial end users.
Format
  • Hardback
License
© by the authors
Keywords
additive manufacturing; laser powder bed fusion; A357.0; mechanical performance; Laser powder bed fusion; selective laser melting; SKD61 tool steel; nanoindentation; strain-rate sensitivity; selective laser melting; nonhorizontal suspension structure; boundary remelting; surface roughness; forming accuracy; selective laser melting; Ti–6Al–4V alloy; metallurgical quality; mechanical properties; aluminum alloys; selective laser melting; high-temperature deformation; microstructure; selective laser melting (SLM); Ti alloy; high temperature tensile; erosion; wear; additive manufacturing; construction; WAAM; welding; steel; ESPI; design; powder bed fusion (PBF); Ti-6Al-4V; erosion; phase transformation; tensile; selective laser melting; 90W-7Ni-3Fe; densification; microstructure; properties; selective laser melting; hyper-duplex stainless steel; microstructure; mechanical property; corrosion resistance; selective laser melting (SLM); Alsi10Mg; stress relieve; additive manufacturing; Inconel 718; selective laser melting (SLM); erosion; phase transformation; tensile; embrittlement; WAAM; titanium; mechanical properties; drilling; chip geometry; cutting forces; hole quality; DED; laser; additive manufacturing; thermal conductivity; thermal diffusivity; thermal modeling; hot stamping; AISI H13; additive manufacturing; plasma transferred arc; processing conditions; mechanical properties; microstructure; Hastelloy C-22; wire and arc additive manufacturing; low-carbon high-strength steel; microstructure; mechanical properties; anisotropy