Cellular Metals: Fabrication, Properties and Applications

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Autore:	Duarte Isabel
Titolo:	Cellular Metals: Fabrication, Properties and Applications
Pubblicazione:	Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica:	1 electronic resource (272 p.)
Soggetto topico:	Technology: general issues
Soggetto non controllato:	semi-solid
	aluminum foam
	primary crystals
	SIMA process
	slope casting
	pore morphology
	aluminium alloy foam
	recycling
	beverage cans
	direct foaming method
	A-242 alloy
	cellular materials
	composites
	friction welding
	foam
	recycle
	compression test
	precipitation phase
	age hardening
	aluminum alloy foams
	powder metallurgy
	continuous production
	mechanical properties
	gradient compressed porous metal
	sound absorption performance
	optimal parameters
	theoretical modeling
	cuckoo search algorithm
	finite element simulation
	experimental validation
	enclosed gas
	anisotropy
	elasticity
	plasticity
	multiaxial yielding
	open-cell aluminum foam
	epoxy resin
	graphene oxide
	hybrid structures
	mechanical
	thermal and acoustic properties
	metal foam
	aluminum alloys
	grain refinement
	modification
	microstructure
	mechanics of materials
	metallurgy
	melt treatment
	CALPHAD
	liquid fraction, X-ray diffraction
	X-ray radioscopy
	X-ray tomography
	X-ray tomoscopy
	porous metal
	drainage
	clogging
	lattice material
	topology optimisation
	crystal inspiration
	energy absorption
	cellular metals
	X-ray computed tomography
	infrared thermography
	mechanical characterization
	thermal characterization
	acoustic characterization
	open-cell foam
	polyurethane foam
	graphene-based materials
	nanocomposites
	unidirectional cellular structure
	porosity
	fabrication
	explosive compaction
	metallography
	computational simulation
	experimental tests
	aluminum matrix foam composite (AMFC)
	MWCNT
	chemical oxidation
	electroless deposition nickel
	expansion
Persona (resp. second.):	VesenjakMatej
	FiedlerThomas
	Krstulović-OparaLovre
	DuarteIsabel
Sommario/riassunto:	Cellular solids and porous metals have become some of the most promising lightweight multifunctional materials due to their superior combination of advanced properties mainly derived from their base material and cellular structure. They are used in a wide range of commercial, biomedical, industrial, and military applications. In contrast to other cellular materials, cellular metals are non-flammable, recyclable, extremely tough, and chemically stable and are excellent energy absorbers. The manuscripts of this Special Issue provide a representative insight into the recent developments in this field, covering topics related to manufacturing, characterization, properties, specific challenges in transportation, and the description of structural features. For example, a presented strategy for the strengthening of Al-alloy foams is the addition of alloying elements (e.g., magnesium) into the metal bulk matrix to promote the formation of intermetallics (e.g., precipitation hardening). The incorporation of micro-sized and nano-sized reinforcement elements (e.g., carbon nanotubes and graphene oxide) into the metal bulk matrix to enhance the performance of the ductile metal is presented. New bioinspired cellular materials, such as nanocomposite foams, lattice materials, and hybrid foams and structures are also discussed (e.g., filled hollow structures, metal-polymer hybrid cellular structures).
Altri titoli varianti:	Cellular Metals
Titolo autorizzato:	Cellular Metals: Fabrication, Properties and Applications
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910557690403321
Lo trovi qui:	Univ. Federico II
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