Emerging Materials for Additive Manufacturing

doi:10.3390/books978-3-0365-6643-6

Reprint

Download Flyer

Emerging Materials for Additive Manufacturing

Edited by

March 2023

278 pages

ISBN978-3-0365-6642-9 (Hardback)
ISBN978-3-0365-6643-6 (PDF)

https://doi.org/10.3390/books978-3-0365-6643-6

Free download (PDF)

This book is a reprint of the Special Issue Emerging Materials for Additive Manufacturing that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

In this reprint, state-of-the-art research and review articles on emerging material systems for additive manufacturing (AM) are collected, with a focus on the process–structure–properties relationships.

Additive manufacturing (AM) has grown and evolved rapidly in recent years. There are many exciting research and translational works in many areas of application, such as biomedical, aerospace and electronics. These advancements are typically coupled with materials development, which has resulted in more functionalities added to 3D-printed parts, such as multi-material fabrications and integration with machine learning or digital twins. Such enhancements in functionalities have enabled the evolution of AM from a rapid prototyping tool to an actual manufacturing solution. In this reprint, two reviews and thirteen original research articles are included to highlight the latest development in the field of materials science for AM.

Format

Hardback

License

Keywords

titanium scaffolds; 3D printing; pore design; selective laser melting; lattice structures; torsion; design; additive manufacturing; functionally gradient lattice; torsional stiffness; energy absorption; failure behavior; ferritic steel; heat treatment; SLM; additive manufacturing; nuclear application; laser powder bed fusion; solidification crack; hot crack; aluminum alloy powder; EN AW-5083; AA5083; AlSi10Mg; selective laser melting; additive manufacturing; 3D printing; selective laser melting; powder bed fusion; metal matrix composites; laser powder-bed fusion; additive manufacturing; aluminum alloys; reinforcement; ceramic particulates; grain refinement; crystallographic texture; mechanical properties; laser-directed energy deposition; melt pool; process maps; multi-fidelity Gaussian process; Bayesian Optimization; uncertainty quantification; laser powder bed fusion; K418 alloy; orientation; phase; microhardness; color 3D printing; penetration depth; chromaticity; image-based metric; color reproduction; laser powder bed fusion; Ti-24Nb-4Zr-8Sn; titanium alloy; biomedical engineering; mechanical properties; microstructure; X-ray diffraction; additive manufacturing; directed energy deposition; shape-memory alloys; joining of metals; elemental powders; 3D concrete printing (3DCP); hybrids; geopolymer; frost resistance; UV radiation; thermal conductivity; additive manufacturing; 3D printing; surface finishing; physical vapor deposition; composites; recycling; polymer-matrix composites (PMCs); direct ink writing; liquid deposition modeling; glass fibers; additive manufacturing; selective laser melting; stainless steel; AISI 316L; AISI 630 (17-4PH); AISI 420; AISI 440C; carbon content; additive manufacturing; powder bed fusion; online monitoring; selective laser melting; electron beam melting; n/a