Wang, Zhi||Konda Gokuldoss, Prashanth <br/><br/>
Additive Manufacturing: Alloy Design and Process Innovations 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>microstructure||slag||crystallographic texture||epoxy solder||additive manufacturing||substrate preheating||thermosetting epoxy resin||AlSi10Mg alloy||impact||residual stress||stability lobe diagram||laves phase||vanadium||selective laser melting (SLM)||molten pool dynamic behavior||scanning strategy||pulse frequency||thin-walled weak rigidity parts||scanning||aluminum||elastic abrasive||2219 aluminum alloy||Powder bed||ABS||laser energy density||equivalent processing model||composition||numerical analysis||scanning electron microscopy (SEM)||Hastelloy X alloy||regular mixing||texture evolution||graphene nano-sheets (GNSs)||Electron Beam Melting||powder bed fusion||microstructural evolution||Mg content||cement||bulk metallic glasses||grain refinement||Taguchi||intermediate thermo-mechanical treatment||valorization||microstructure and properties||arc current||high computational efficiency||powder properties||dynamic characteristics||composite materials||CuAl2 phase||rapid solidification||magnetizer||M300 mold steel||circular economy||titanium alloy||Al–5Si alloy||Al–Mg–Si alloy||ultrasonic bonding||water absorption||disc brake||support strategy||inoculation||arc additive manufacture||3D metal printing||ultrafast laser||Hot Isostatic Pressure||arc additive manufacturing||continuous carbon fiber||performance characteristics||process-damping||intermetallic compound (IMC)||interfaces||direct metal laser sintering||porosity||nickel-based superalloy||element segregation||hydrophobicity||H13 tool steel||Cu50Zr43Al7||metal powders||parameter optimization||side spatters||powder packing||3D printing||precipitates||n/a||simulation||laser cladding deposition||melt pool size||quenching rate||Al–Mg alloy||tailored properties||workpiece scale||fatigue||laser cladding||Ti-6Al-4V||deformation||quality of the as-built parts||model||milling||wire feeding additive manufacturing||martensitic transformation||ball milling||Inconel 718||ablation||in-process temperature in MPBAM||subgranular dendrites||porosity reduction||femtosecond||paint bake-hardening||Al6061||defects||continuous dynamic recrystallization||wear||Additive manufacturing||volumetric heat source||Ti6Al4V alloy||AlSi10Mg||radial grooves||GH4169||temperature and stress fields||laser powder bed fusion||metallic glasses||numerical simulation||latent heat||divisional scanning||wire lateral feeding||laser powder bed fusion (LPBF)||heat treatment||thermal behaviour||fused filament fabrication||microstructures||thermal conductivity||12CrNi2 alloy steel powder||tensile strength||hot stamping steel blanks||multi-laser manufacturing||aluminum alloys||additive surface structuring||parts design||process parameters||thermal stress analysis||SLM process parameters||nickel alloys||Al–Si||powder flowability||laser power absorption||refractory high-entropy alloy||localized inductive heating||mechanical properties||selective laser melting||storage energy||concrete||mechanical property||gray cast iron||constitutive model||analytical modeling||hot deformation||epitaxial growth||design||flowability||amorphous alloy||PSO-BP neural network algorithm||molten pool evolution||microhardness measurement||macro defects||thermal capillary effects||finite element analysis||dynamic properties||WxNbMoTa||properties