Your search keyword '"Direct energy deposition"' showing total 2 results

1. Metal Additive Manufacturing - State of the Art 2020.

Author

Asnafi, Nader and Asnafi, Nader

Subjects

Technology: general issues, 316L stainless-steel, 316LN, 3D printing, 5356-aluminum, EN AW-7075, Ti-6Al-4V, WAAM, additive manufacturing, additive manufacturing (AM), bioactive layers, biological origin hydroxyapatite, cavity resonators, cold metal transfer, cold working, cranial mesh implants, direct energy deposition, directed energy deposition, electron backscattered diffraction method, electron beam melting, electron beam melting (EBM), electron microscopy, filters, grain selection, heat treatments, hot working, injection molding, laser-based powder bed fusion (L-PBF), magnesium, mechanical properties, metal powder bed fusion, microstructure, microwave, n/a, plating, porosity, post-processing, powder bed fusion, powder methods, process window, production tools, radio-frequency magnetron sputtering, rapid tooling, residual stresses, scanning electron microscopy, selective laser melting, single crystal, stainless steel, stereolithography, support structure removability, support structures, temperature distribution, thermal expansion, three-dimensional printing, ultimate tensile strength, wire arc additive manufacturing

Abstract

Summary: Additive Manufacturing (AM), more popularly known as 3D printing, is transforming the industry. AM of metal components with virtually no geometric limitations has enabled new product design options and opportunities, increased product performance, shorter cycle time in part production, total cost reduction, shortened lead time, improved material efficiency, more sustainable products and processes, full circularity in the economy, and new revenue streams. This Special Issue of Metals gives an up-to-date account of the state of the art in AM.

2. Materials, Design and Process Development for Additive Manufacturing.

Author

Sufiiarov, Vadim and Sufiiarov, Vadim

Subjects

Chemical engineering, Technology: general issues, DC thermal plasma, FeSiB, Ti-6Al-4V, additive manufacturing, additive manufacturing (AM), alloys, annealing, barium titanate, binder jetting, cobalt, corrosion resistant steel, direct energy deposition, direct laser deposition, direct laser deposition (DLD), direct metal deposition, elevated temperatures, graded materials, granulation, heat transfer, heat treatment (HT), hydrodynamics, lead-free piezoceramic, magnetic properties, maraging steel, mass transfer, mechanical alloying, mechanical characteristics, mechanical properties, microstructure, multimaterial 3D printing, n/a, nanopowder, nitinol, phase composition, piezoelectric properties, porosity, powder bed fusion, pure tungsten, pyrolysis, selective electron beam melting (SEBM), selective laser melting, silicon carbide, simulation of the melt pool, sintering, soft-magnetic alloy, spheroidization, spray drying, stress relaxation, synthesis, tensile properties, thermal history, titanium alloy, titanium alloys, tungsten carbides

Abstract

Summary: Additive manufacturing is already actively used in various high-tech industries today. At the same time, there is a certain limitation and imperfection of known and widely used conventional materials when they are used in additive manufacturing. In this regard, extensive research and development are aimed at the advancements of new materials by adjusting the chemical compositions of conventional alloys, new equipment with expanded functionality and the ability to work with a wide range of materials that were previously not available for additive manufacturing. This Special Issue covers a wide scope of additive manufacturing processes, comprising investigation, characterization of materials and their properties, development and application of new materials, structures designed for additive manufacturing, as well as processes and techniques that will expand the potential applications of layer-by-layer synthesis.