LEADER 04833nam  2201417z- 450 
001 9910557714403321
005 20210501
035   $a(CKB)5400000000046181
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/69104
035   $a(oapen)doab69104
035   $a(EXLCZ)995400000000046181
100   $a20202105d2020      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aMetal Matrix Composites
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 online resource (102 p.)
311 08$a3-03936-092-2 
311 08$a3-03936-093-0 
330   $aMetal-based composites represent a unique way of tailoring the properties of metals, through the selection of type, size, and amount of reinforcement. In this way, the properties of metallic matrices can be adjusted depending on end applications. In view of the dynamic capabilities they can exhibit, this Special Issue will cover all aspects of metal matrix composites: synthesis (including solid, liquid, two-phase and 3D printing); secondary processing; properties (tensile, compressive, fatigue, impact, creep, tribological, etc.); corrosion behavior; and joining techniques. The main objective is to share the latest results on metal matrix composites with the research community worldwide.
606   $aHistory of engineering and technology$2bicssc
610   $a7075 Al alloy
610   $aAl-Zn-Cr alloys
610   $aAl11La3 phase
610   $aAlN
610   $aaluminum
610   $aaluminum matrix composites
610   $acarbon nanotube
610   $acarbon nanotubes
610   $acold/hot PM
610   $acomposite
610   $acomposite strengthening
610   $acompressibility factor
610   $acompression
610   $acompression properties
610   $acompressive properties
610   $aconstitutive model
610   $acopper
610   $acorrosion
610   $aCu-TiC
610   $aCu@Ag composite nanoparticle
610   $adamping
610   $adeformation behavior
610   $adispersion
610   $adry sliding wear
610   $aelastoplastic properties
610   $aelectrical resistance
610   $aextrusion
610   $afracture
610   $afracture behavior
610   $agraphene
610   $aHalpin-Tsai-Kardos model
610   $ahardness
610   $ahigh entropy alloy
610   $ahigh temperature
610   $aignition
610   $ain situ titanium composites
610   $ain-situ composites
610   $ainterfacial adhesion
610   $ainterfacial debonding
610   $airon aluminum alloys
610   $amagnesium
610   $aMagnesium
610   $amagnesium alloy
610   $amagnesium alloy AM60
610   $amagnesium-alloy-based composite
610   $amagnesium-based composite
610   $amechanical milling
610   $amechanical properties
610   $ametal matrix composites
610   $ametal matrix nanocomposite
610   $ametal matrix nanocomposite (MMNC)
610   $ametal mesh
610   $aMg-3Al-0.4Ce alloy
610   $aMg-Al-RE alloy
610   $amicrostructural characterization
610   $amicrostructure
610   $amicrostructure analysis
610   $amicrostructures
610   $an/a
610   $anano ZnO particles
610   $anano-sized SiCp
610   $ananocomposite
610   $ananoparticles
610   $ananosize reinforcement
610   $anickel
610   $aphase transformation
610   $aphysicomechanical properties
610   $apowder metallurgy
610   $areduced graphene oxide
610   $ascreen printing
610   $aSm2O3 nanoparticles
610   $aspark plasma sintering
610   $astrength
610   $astrengthening
610   $astrengthening mechanism
610   $astrengthening mechanisms
610   $asynthesis of core-shell metal nanoparticles
610   $atensile strength
610   $athermal conductivity
610   $athermal expansion coefficient
610   $athixoforging
610   $aTiB precipitates
610   $atitanium matrix composite
610   $atouch screen panel
610   $atricalcium phosphate
610   $atungsten composites
610   $atungsten-fibre-net reinforcement
610   $aultrasonication
610   $auniform distribution
610   $awear resistance
615  7$aHistory of engineering and technology
700   $aGupta$b Manoj$4edt$0522031
702   $aGupta$b Manoj$4oth
906   $aBOOK
912   $a9910557714403321
996   $aMetal Matrix Composites$93029669
997   $aUNINA