3D Printing of Metal

doi:10.3390/books978-3-0365-6864-5

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3D Printing of Metal

Edited by

February 2023

170 pages

ISBN978-3-0365-6865-2 (Hardback)
ISBN978-3-0365-6864-5 (PDF)

https://doi.org/10.3390/books978-3-0365-6864-5

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This book is a reprint of the Special Issue 3D Printing of Metal that was published in

Chemistry & Materials Science

Engineering

Summary

Metal 3D printing, as an advanced forming, can manufacture parts directly from digital model by using layer by layer material build-up approach. This manufacturing method can prepare complex shape metal parts in short time, with and high precision. Three-dimensional printing processes can be classified into two major groups: Powder Bed Fusion-based technologies and Directed Energy Deposition. Three-dimensional printing features freedom of part complexity, part design, and light-weighting for aerospace, automobile, and other industries application. The Global Metal 3D Printing Market is mainly driven by the the fast developing of aerospace and automobile industry. The Global Metal 3D Printing Market size was valued at USD 534.18 Million in 2020 and is projected to reach USD 4458.76 Million by 2028, growing at a CAGR of 30.38% from 2021 to 2028.

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Keywords

17-4PH; SLM; solution temperature; microstructure and properties; selective laser melting; CuCrZr alloy; process parameters; relative density; tensile properties; Ni-based superalloys; electron beam melting; additive manufacturing; Argon gas atomized; plasma rotation electrode process; powder characteristics; residual stresses; additive manufacturing; selective laser melting (SLM); finite element modeling (FEM); triply periodic minimal surface (TPMS); copper corrosion; liquefied petroleum gas; H₂S corrosion; SEM; XPS; CLF-1 steel; selective laser melting; process parameters; microstructure; mechanical properties; in-situ alloying; composition inhomogeneity; computer simulation; processing map; laser powder bed fusion; graphene; high temperature; mechanical property; alumina; cobalt-chromium-molybdenum alloy; electroless plating; friction performance; implants; Laser Powder Bed Fusion; additive manufacturing; selective laser melting; defects; process parameter; powder bed fusion; surface roughness; porosity; microstructure; residual stress