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Additive Manufacturing (AM) of Metallic Alloys
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The introduction of metal AM processes in such industrial sectors as the aerospace, automotive, defense, jewelry, medical and tool-making fields, has led to a significant reduction in waste material and in the lead times of the components, innovative designs with higher strength, lower weight, and fewer potential failure points from joining features. This Special Issue on “Additive Manufacturing (AM) of Metallic Alloys” contains a mixture of review articles and original contributions on some problems that limit the wider uptake and exploitation of metals in AM.
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Keywords
- additive manufacturing
- ausrolled nanobainite
- Costs
- design for additive manufacturing (DfAM)
- Displacements
- electrochemical additive manufacturing
- electron beam melting (EBM)
- experimental measurement of residual stress
- fountain pen feed system
- fracture behavior
- History of engineering & technology
- in situ sensing
- IN718
- L-PBF
- lack of fusion
- laser powder bed fusion (L-PBF)
- laser welding
- Machine learning
- manufacturing constraints
- Mechanical properties
- melting of a powder bed
- metal 3D printer
- metal additive manufacturing
- microstructures
- molten pool
- n/a
- optical diagnostics
- part quality
- powder bed fusion
- Quality assurance
- residual stress prediction
- residual stresses
- roughness
- stiffness
- support structure
- surface texture
- Technology, engineering, agriculture
- Technology: general issues
- temperature field
- tempered
- Ti-6Al-4V
- Ti6Al4V
- titanium alloy