Additive Manufacturing: Alloy Design and Process Innovations

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Autore:	Wang Zhi
Titolo:	Additive Manufacturing: Alloy Design and Process Innovations
Pubblicazione:	MDPI - Multidisciplinary Digital Publishing Institute, 2020
Descrizione fisica:	1 online resource (352 p.)
Soggetto topico:	History of engineering and technology
Soggetto non controllato:	12CrNi2 alloy steel powder
	2219 aluminum alloy
	3D metal printing
	3D printing
	ablation
	ABS
	additive manufacturing
	Additive manufacturing
	additive surface structuring
	Al-5Si alloy
	Al-Mg alloy
	Al-Mg-Si alloy
	Al-Si
	Al6061
	AlSi10Mg
	AlSi10Mg alloy
	aluminum
	aluminum alloys
	amorphous alloy
	analytical modeling
	arc additive manufacture
	arc additive manufacturing
	arc current
	ball milling
	bulk metallic glasses
	cement
	circular economy
	composite materials
	composition
	concrete
	constitutive model
	continuous carbon fiber
	continuous dynamic recrystallization
	crystallographic texture
	Cu50Zr43Al7
	CuAl2 phase
	defects
	deformation
	design
	direct metal laser sintering
	disc brake
	divisional scanning
	dynamic characteristics
	dynamic properties
	elastic abrasive
	Electron Beam Melting
	element segregation
	epitaxial growth
	epoxy solder
	equivalent processing model
	fatigue
	femtosecond
	finite element analysis
	flowability
	fused filament fabrication
	GH4169
	grain refinement
	graphene nano-sheets (GNSs)
	gray cast iron
	H13 tool steel
	Hastelloy X alloy
	heat treatment
	high computational efficiency
	hot deformation
	Hot Isostatic Pressure
	hot stamping steel blanks
	hydrophobicity
	impact
	in-process temperature in MPBAM
	Inconel 718
	inoculation
	interfaces
	intermediate thermo-mechanical treatment
	intermetallic compound (IMC)
	laser cladding
	laser cladding deposition
	laser energy density
	laser powder bed fusion
	laser powder bed fusion (LPBF)
	laser power absorption
	latent heat
	laves phase
	localized inductive heating
	M300 mold steel
	macro defects
	magnetizer
	martensitic transformation
	mechanical properties
	mechanical property
	melt pool size
	metal powders
	metallic glasses
	Mg content
	microhardness measurement
	microstructural evolution
	microstructure
	microstructure and properties
	microstructures
	milling
	model
	molten pool dynamic behavior
	molten pool evolution
	multi-laser manufacturing
	n/a
	nickel alloys
	nickel-based superalloy
	numerical analysis
	numerical simulation
	paint bake-hardening
	parameter optimization
	parts design
	performance characteristics
	porosity
	porosity reduction
	Powder bed
	powder bed fusion
	powder flowability
	powder packing
	powder properties
	precipitates
	process parameters
	process-damping
	properties
	PSO-BP neural network algorithm
	pulse frequency
	quality of the as-built parts
	quenching rate
	radial grooves
	rapid solidification
	refractory high-entropy alloy
	regular mixing
	residual stress
	scanning
	scanning electron microscopy (SEM)
	scanning strategy
	selective laser melting
	selective laser melting (SLM)
	side spatters
	simulation
	slag
	SLM process parameters
	stability lobe diagram
	storage energy
	subgranular dendrites
	substrate preheating
	support strategy
	Taguchi
	tailored properties
	temperature and stress fields
	tensile strength
	texture evolution
	thermal behaviour
	thermal capillary effects
	thermal conductivity
	thermal stress analysis
	thermosetting epoxy resin
	thin-walled weak rigidity parts
	Ti-6Al-4V
	Ti6Al4V alloy
	titanium alloy
	ultrafast laser
	ultrasonic bonding
	valorization
	vanadium
	volumetric heat source
	water absorption
	wear
	wire feeding additive manufacturing
	wire lateral feeding
	workpiece scale
	WxNbMoTa
Persona (resp. second.):	Konda GokuldossPrashanth
Sommario/riassunto:	Additive manufacturing (AM) is one of the manufacturing processes that warrants the attention of industrialists, researchers and scientists, because of its ability to produce materials with a complex shape without theoretical restrictions and with added functionalities. There are several advantages to employing additive manufacturing as the primary additive manufacturing process. However, there exist several challenges that need to be addressed systematically. A couple such issues are alloy design and process development. Traditionally alloys designed for conventional cast/powder metallurgical processes were fabricated using advanced AM processes. This is the wrong approach considering that the alloys should be coined based on the process characteristics and meta-stable nature of the process. Hence, we must focus on alloy design and development for AM that suits the AM processes. The AM processes, however, improve almost every day, either in terms of processing capabilities or processing conditions. Hence, the processing part warrants a section that is devoted to these advancements and innovations. Accordingly, the present Special Issue (book) focuses on two aspects of alloy development and process innovations. Here, 45 articles are presented covering different AM processes including selective laser melting, electron beam melting, laser cladding, direct metal laser sintering, ultrasonic consolidation, wire arc additive manufacturing, and hybrid manufacturing. I believe that this Special Issue bears is vital to the field of AM and will be a valuable addition.
Altri titoli varianti:	Additive Manufacturing
Titolo autorizzato:	Additive Manufacturing: Alloy Design and Process Innovations
ISBN:	3-03928-415-0
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910404089103321
Lo trovi qui:	Univ. Federico II
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