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Advances in Laser Materials Processing

Laser 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 absen...

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Bibliographic Details
Main Author: Grigoriev, Sergey N.
Other Authors: Volosova, Marina A., Okunkova, Anna A.
Format: eBook
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Surface Roughness
Cast Irons
Laser Scabbling
Microroughness
Surface Wear
Offset
Cement-based Material
Titanium Alloy
N/a
Wear
Specific Energy
Biomimetic Model
Corrosion Susceptibility
High Entropy Alloy
Tool Steel 1.2379
Laser Powder Bed Fusion
Surface Cleaning
Ductile Iron
History Of Engineering & Technology / Bicssc
Hardness
Atmospheric Plasma Sources
Chemical Analysis
Tensile Properties
Brake Pads
Tensile Test
Technology: General Issues / Bicssc
Power Density Distribution
Stress Relief Heat Treatment
Laser Beam Mode
Microstructural Analysis
Anticorrosion Steel
Thermal Fatigue Crack
Dielectric Barrier Discharge
Heat Diffusion
Defocusing
Repair Discontinuously
Laser Cladding
Numerical Simulation
Laser Treatment
Laser Remelting
Thermal Properties
Laser Bionic Unit
Nickel Alloy
Ultrasonic Peening
Quadratic Laser Spot
Phase Transformation
Selective Laser Melting
Area Rate
Composition
Mechanical Properties
Energy Excess
Thermal Conductivity
Microstructure
Laser Melting
Profiling
Laser Polishing
Bionic Crack Blocked Unit
Wear Resistance
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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245 0 0 |a Advances in Laser Materials Processing  |h Elektronische Ressource 
260 |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2022 
300 |a 1 electronic resource (238 p.) 
653 |a surface roughness 
653 |a cast irons 
653 |a laser scabbling 
653 |a microroughness 
653 |a surface wear 
653 |a offset 
653 |a cement-based material 
653 |a titanium alloy 
653 |a n/a 
653 |a wear 
653 |a specific energy 
653 |a biomimetic model 
653 |a corrosion susceptibility 
653 |a high entropy alloy 
653 |a tool steel 1.2379 
653 |a laser powder bed fusion 
653 |a surface cleaning 
653 |a ductile iron 
653 |a History of engineering & technology / bicssc 
653 |a hardness 
653 |a atmospheric plasma sources 
653 |a chemical analysis 
653 |a tensile properties 
653 |a brake pads 
653 |a tensile test 
653 |a Technology: general issues / bicssc 
653 |a power density distribution 
653 |a stress relief heat treatment 
653 |a laser beam mode 
653 |a microstructural analysis 
653 |a anticorrosion steel 
653 |a thermal fatigue crack 
653 |a dielectric barrier discharge 
653 |a heat diffusion 
653 |a defocusing 
653 |a repair discontinuously 
653 |a laser cladding 
653 |a numerical simulation 
653 |a laser treatment 
653 |a laser remelting 
653 |a thermal properties 
653 |a laser bionic unit 
653 |a nickel alloy 
653 |a ultrasonic peening 
653 |a quadratic laser spot 
653 |a phase transformation 
653 |a selective laser melting 
653 |a area rate 
653 |a composition 
653 |a mechanical properties 
653 |a energy excess 
653 |a thermal conductivity 
653 |a microstructure 
653 |a laser melting 
653 |a profiling 
653 |a laser polishing 
653 |a bionic crack blocked unit 
653 |a wear resistance 
700 1 |a Volosova, Marina A. 
700 1 |a Okunkova, Anna A. 
700 1 |a Grigoriev, Sergey N. 
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520 |a Laser 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. 

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