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New Frontiers in Materials Design for Laser Additive Manufacturing



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Autore: Gökce Bilal Visualizza persona
Titolo: New Frontiers in Materials Design for Laser Additive Manufacturing Visualizza cluster
Pubblicazione: Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022
Descrizione fisica: 1 electronic resource (136 p.)
Soggetto topico: Technology: general issues
Chemical engineering
Soggetto non controllato: powder bed fusion
magnesium
process development
additive manufacturing
PBF-LB/M
tool steel (1.2709)
nanocomposite
microstructure
mechanical properties
laser powder bed fusion
selective laser melting
oxide dispersion strengthened steel
phase-field model
finite element simulation
nanoparticle interaction
pure copper
short wavelength laser system
green laser
eddy-current method
electrical conductivity
polyamide 12
nanocomposites
nanoparticles
dispersion
LB-PBF
additively manufactured parts
aluminum alloys
intermetallics
thermal exposure
aluminium alloys
hot cracking
rapid solidification
differential fast scanning calorimetry
undercooling
grain size
crack density
Persona (resp. second.): JägleEric
SchmidManfred
GökceBilal
Sommario/riassunto: In recent years, the industry has started to use parts printed by powder-based laser additive manufacturing (LAM) when precision and good mechanical properties are required. Applications can be found in the aerospace, automotive, and medical sectors. However, the powder materials available are often inadequate for contemporary processing tasks, and often generate process instabilities as well as porosities and defects in the resulting parts. This Special Issue, “New Frontiers in Materials Design for Laser Additive Manufacturing”, focuses on advances in material design and the development of laser additive manufacturing. Of particular interest are original papers dealing with metal and polymer powders for laser powder bed fusion or directed energy deposition. In this Special Issue, we are especially interested in answering the following questions: How can laser process parameters and material properties be adapted to the LAM process via the matrix modification (e.g., alloying, doping, compounding) of powders? How can powder properties like flowability, wetting, porosity, or (heterogeneous) nucleation be adapted to the LAM process via the surface modification of powders? How may calorimetry, high-speed videography, pyrometry, and online spectroscopy, as well as modeling, contribute to understanding dynamics of melting and recrystallization, in addition to the lateral distribution of the thermal process window?
Titolo autorizzato: New Frontiers in Materials Design for Laser Additive Manufacturing  Visualizza cluster
ISBN: 3-0365-5882-9
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910637782603321
Lo trovi qui: Univ. Federico II
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