LEADER 08428nam  2202353z- 450 
001 9910404089203321
005 20231214133643.0
010   $a3-03928-353-7
035   $a(CKB)4100000011302246
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/40123
035   $a(EXLCZ)994100000011302246
100   $a20202102d2020      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aAdditive Manufacturing: Alloy Design and Process Innovations$hVol. 1
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 electronic resource (372 p.)
311   $a3-03928-352-9 
330   $aAdditive 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.
517   $aAdditive Manufacturing
610   $amicrostructure
610   $aslag
610   $acrystallographic texture
610   $aepoxy solder
610   $aadditive manufacturing
610   $asubstrate preheating
610   $athermosetting epoxy resin
610   $aAlSi10Mg alloy
610   $aimpact
610   $aresidual stress
610   $astability lobe diagram
610   $alaves phase
610   $avanadium
610   $aselective laser melting (SLM)
610   $amolten pool dynamic behavior
610   $ascanning strategy
610   $apulse frequency
610   $athin-walled weak rigidity parts
610   $ascanning
610   $aaluminum
610   $aelastic abrasive
610   $a2219 aluminum alloy
610   $aPowder bed
610   $aABS
610   $alaser energy density
610   $aequivalent processing model
610   $acomposition
610   $anumerical analysis
610   $ascanning electron microscopy (SEM)
610   $aHastelloy X alloy
610   $aregular mixing
610   $atexture evolution
610   $agraphene nano-sheets (GNSs)
610   $aElectron Beam Melting
610   $apowder bed fusion
610   $amicrostructural evolution
610   $aMg content
610   $acement
610   $abulk metallic glasses
610   $agrain refinement
610   $aTaguchi
610   $aintermediate thermo-mechanical treatment
610   $avalorization
610   $amicrostructure and properties
610   $aarc current
610   $ahigh computational efficiency
610   $apowder properties
610   $adynamic characteristics
610   $acomposite materials
610   $aCuAl2 phase
610   $arapid solidification
610   $amagnetizer
610   $aM300 mold steel
610   $acircular economy
610   $atitanium alloy
610   $aAl-5Si alloy
610   $aAl-Mg-Si alloy
610   $aultrasonic bonding
610   $awater absorption
610   $adisc brake
610   $asupport strategy
610   $ainoculation
610   $aarc additive manufacture
610   $a3D metal printing
610   $aultrafast laser
610   $aHot Isostatic Pressure
610   $aarc additive manufacturing
610   $acontinuous carbon fiber
610   $aperformance characteristics
610   $aprocess-damping
610   $aintermetallic compound (IMC)
610   $ainterfaces
610   $adirect metal laser sintering
610   $aporosity
610   $anickel-based superalloy
610   $aelement segregation
610   $ahydrophobicity
610   $aH13 tool steel
610   $aCu50Zr43Al7
610   $ametal powders
610   $aparameter optimization
610   $aside spatters
610   $apowder packing
610   $a3D printing
610   $aprecipitates
610   $asimulation
610   $alaser cladding deposition
610   $amelt pool size
610   $aquenching rate
610   $aAl-Mg alloy
610   $atailored properties
610   $aworkpiece scale
610   $afatigue
610   $alaser cladding
610   $aTi-6Al-4V
610   $adeformation
610   $aquality of the as-built parts
610   $amodel
610   $amilling
610   $awire feeding additive manufacturing
610   $amartensitic transformation
610   $aball milling
610   $aInconel 718
610   $aablation
610   $ain-process temperature in MPBAM
610   $asubgranular dendrites
610   $aporosity reduction
610   $afemtosecond
610   $apaint bake-hardening
610   $aAl6061
610   $adefects
610   $acontinuous dynamic recrystallization
610   $awear
610   $aAdditive manufacturing
610   $avolumetric heat source
610   $aTi6Al4V alloy
610   $aAlSi10Mg
610   $aradial grooves
610   $aGH4169
610   $atemperature and stress fields
610   $alaser powder bed fusion
610   $ametallic glasses
610   $anumerical simulation
610   $alatent heat
610   $adivisional scanning
610   $awire lateral feeding
610   $alaser powder bed fusion (LPBF)
610   $aheat treatment
610   $athermal behaviour
610   $afused filament fabrication
610   $amicrostructures
610   $athermal conductivity
610   $a12CrNi2 alloy steel powder
610   $atensile strength
610   $ahot stamping steel blanks
610   $amulti-laser manufacturing
610   $aaluminum alloys
610   $aadditive surface structuring
610   $aparts design
610   $aprocess parameters
610   $athermal stress analysis
610   $aSLM process parameters
610   $anickel alloys
610   $aAl-Si
610   $apowder flowability
610   $alaser power absorption
610   $arefractory high-entropy alloy
610   $alocalized inductive heating
610   $amechanical properties
610   $aselective laser melting
610   $astorage energy
610   $aconcrete
610   $amechanical property
610   $agray cast iron
610   $aconstitutive model
610   $aanalytical modeling
610   $ahot deformation
610   $aepitaxial growth
610   $adesign
610   $aflowability
610   $aamorphous alloy
610   $aPSO-BP neural network algorithm
610   $amolten pool evolution
610   $amicrohardness measurement
610   $amacro defects
610   $athermal capillary effects
610   $afinite element analysis
610   $adynamic properties
610   $aWxNbMoTa
610   $aproperties
700   $aWang$b Zhi$4auth$0696383
702   $aKonda Gokuldoss$b Prashanth$4auth
906   $aBOOK
912   $a9910404089203321
996   $aAdditive Manufacturing: Alloy Design and Process Innovations$93024330
997   $aUNINA