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001 9910619468203321
005 20231214132925.0
010   $a3-0365-4888-2
035   $a(CKB)5670000000391592
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/93180
035   $a(EXLCZ)995670000000391592
100   $a20202210d2022      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aAdvances in Laser Materials Processing
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 electronic resource (238 p.)
311   $a3-0365-4887-4 
330   $aLaser processing has become more relevant today due to its fast adaptation to the most critical technological tasks, its ability to provide processing in the most rarefied and aggressive mediums (vacuum conditions), its wide field of potential applications, and the green aspects related to the absence of industrial cutting chips and dust. With the development of 3D production, laser processing has received renewed interest associated with its ability to achieve pointed to high-precision powder melting or sintering. New technologies and equipment, which improve and modify optical laser parameters, contribute to better absorption of laser energy by metals or powder surfaces and allow for multiplying laser power that can positively influence the industrial spread of the laser in mass production and advance the existing manufacturing methods. The latest achievements in laser processing have become a relevant topic in the most authoritative scientific journals and conferences in the last half-century. Advances in laser processing have received multiple awards in the most prestigious competitions and exhibitions worldwide and at international scientific events. The Special Issue is devoted to the most recent achievements in the laser processing of various materials, such as cast irons, tool steels, high entropy alloys, hard-to-remelt materials, cement mortars, and post-processing and innovative manufacturing based on a laser.
606   $aTechnology: general issues$2bicssc
606   $aHistory of engineering & technology$2bicssc
610   $acomposition
610   $alaser bionic unit
610   $atensile properties
610   $awear resistance
610   $alaser remelting
610   $aductile iron
610   $abionic crack blocked unit
610   $arepair discontinuously
610   $athermal fatigue crack
610   $alaser melting
610   $abiomimetic model
610   $abrake pads
610   $asurface wear
610   $alaser cladding
610   $ahigh entropy alloy
610   $aspecific energy
610   $aphase transformation
610   $aanticorrosion steel
610   $ahardness
610   $alaser powder bed fusion
610   $amicroroughness
610   $atensile test
610   $acorrosion susceptibility
610   $adefocusing
610   $amicrostructure
610   $aoffset
610   $astress relief heat treatment
610   $aultrasonic peening
610   $asurface roughness
610   $alaser polishing
610   $aquadratic laser spot
610   $atool steel 1.2379
610   $aarea rate
610   $acement-based material
610   $alaser scabbling
610   $amicrostructural analysis
610   $achemical analysis
610   $athermal properties
610   $alaser treatment
610   $acast irons
610   $amechanical properties
610   $awear
610   $aenergy excess
610   $aheat diffusion
610   $alaser beam mode
610   $anumerical simulation
610   $aprofiling
610   $apower density distribution
610   $athermal conductivity
610   $asurface cleaning
610   $aselective laser melting
610   $aatmospheric plasma sources
610   $adielectric barrier discharge
610   $anickel alloy
610   $atitanium alloy
615  7$aTechnology: general issues
615  7$aHistory of engineering & technology
700   $aGrigoriev$b Sergey N$4edt$01279134
702   $aVolosova$b Marina A$4edt
702   $aOkunkova$b Anna A$4edt
702   $aGrigoriev$b Sergey N$4oth
702   $aVolosova$b Marina A$4oth
702   $aOkunkova$b Anna A$4oth
906   $aBOOK
912   $a9910619468203321
996   $aAdvances in Laser Materials Processing$93038945
997   $aUNINA