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Thermal treatment of materials occupies a significant, increasing proportion of MSE activity and is an integral component of modern curricula as well as a highly monetized component of industrial production. Laser processing of materials offers advantages over conventional methods of processing. Some of these advantages include fast processing, precision of operation, low cost and local treatment. Analytical modelling of laser processing gives insight into the physical and mathematical aspects of the problem and provides useful information on process optimization. However the impor
Heat engineering - Instruments. --- Laser heating. --- Laser processing. --- Lasers - Industrial applications. --- Thermal treatment. --- Lasers --- Heat engineering --- Engineering & Applied Sciences --- Applied Physics --- Industrial applications --- Instruments --- Industrial applications. --- Instruments. --- Instruments, Heat engineering
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This book introduces laser drilling processes including modelling, quality assessment of drilled holes, and laser drilling applications. It provides insights into the laser drilling process and the relation among the drilling parameters pertinent to improved end product quality. This book is written for engineers and scientists working on laser machining, particularly laser drilling.
Lasers -- Industrial applications. --- Manufacturing processes. --- Prototypes, Engineering. --- Laser drilling --- Mechanical Engineering --- Engineering & Applied Sciences --- Applied Physics --- Industrial & Management Engineering --- Laser drilling. --- Lasers --- Industrial applications. --- Laser percussion drilling --- Engineering. --- Lasers. --- Photonics. --- Industrial engineering. --- Materials --- Thin films. --- Operating Procedures, Materials Treatment. --- Laser Technology, Photonics. --- Surfaces and Interfaces, Thin Films. --- Surfaces. --- Drilling and boring --- Laser beam cutting --- Industrial applications --- Manufactures. --- Surfaces (Physics). --- Manufacturing, Machines, Tools, Processes. --- Optics, Lasers, Photonics, Optical Devices. --- Physics --- Surface chemistry --- Surfaces (Technology) --- Manufactured goods --- Manufactured products --- Products --- Products, Manufactured --- Commercial products --- Manufacturing industries --- Materials—Surfaces. --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Coatings --- Thick films --- New optics --- Optics --- Light amplification by stimulated emission of radiation --- Masers, Optical --- Optical masers --- Light amplifiers --- Light sources --- Optoelectronic devices --- Nonlinear optics --- Optical parametric oscillators
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The Laser Cutting Process: Analysis and Applications presents a comprehensive understanding of the laser cutting process and its practical applications. The book includes modeling, such as thermal and stress analysis, along with lamp parameter analysis for kerf width predictions and their practical applications, such as laser cutting of metallic and non-metallic materials and assessment of quality. The book provides analytical considerations for laser cutting, the importance of the affecting parameters, stress levels formed in the cutting section, cutting efficiency and cut morphology and metallurgy. It is designed to be used by individuals working in laser machining and high energy processing. Fills the gap between a fundamental understanding of the laser cutting process and the shortcomings of the industrial (practical) applications Discusses new developments in the laser cutting process of difficult to cut materials Includes thermal analysis for various metallic and non-metallic materials Provides information on Quality Assessment Methods
Lasers --- Laser beam cutting. --- Industrial applications. --- Machining --- Metal-cutting --- Laser drilling --- Laser beam cutting --- Industrial applications
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The Laser Cutting Process: Analysis and Applications presents a comprehensive understanding of the laser cutting process and its practical applications. The book includes modeling, such as thermal and stress analysis, along with lamp parameter analysis for kerf width predictions and their practical applications, such as laser cutting of metallic and non-metallic materials and assessment of quality. The book provides analytical considerations for laser cutting, the importance of the affecting parameters, stress levels formed in the cutting section, cutting efficiency and cut morphology and metallurgy. It is designed to be used by individuals working in laser machining and high energy processing.Fills the gap between a fundamental understanding of the laser cutting process and the shortcomings of the industrial (practical) applicationsDiscusses new developments in the laser cutting process of difficult to cut materialsIncludes thermal analysis for various metallic and non-metallic materialsProvides information on Quality Assessment Methods
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Thermal treatment of materials occupies a significant, increasing proportion of MSE activity and is an integral component of modern curricula as well as a highly monetized component of industrial production. Laser processing of materials offers advantages over conventional methods of processing. Some of these advantages include fast processing, precision of operation, low cost and local treatment. Analytical modelling of laser processing gives insight into the physical and mathematical aspects of the problem and provides useful information on process optimization. However the important physi.
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This book introduces model studies and experimental results associated with laser forming and welding such as laser induced bending, welding of sheet metals, and related practical applications. The book provides insight into the physical processes involved with laser forming and welding. The analytical study covers the formulation of laser induced bending while the model study demonstrates the simulation of bending and welding processes using the finite element method. Analytical and numerical solutions for laser forming and welding problems are provided.
Laser welding. --- Lasers --- Manufacturing processes. --- Industrial applications. --- Industrial processing --- Manufacture --- Process engineering (Manufactures) --- Processes, Manufacturing --- Processing, Industrial --- Production processes --- Engineering. --- Lasers. --- Photonics. --- Industrial engineering. --- Materials --- Thin films. --- Operating Procedures, Materials Treatment. --- Surfaces and Interfaces, Thin Films. --- Laser Technology, Photonics. --- Surfaces. --- Industrial arts --- Production engineering --- Machine-tools --- Welding --- Manufactures. --- Surfaces (Physics). --- Manufacturing, Machines, Tools, Processes. --- Optics, Lasers, Photonics, Optical Devices. --- Physics --- Surface chemistry --- Surfaces (Technology) --- Manufactured goods --- Manufactured products --- Products --- Products, Manufactured --- Commercial products --- Manufacturing industries --- Materials—Surfaces. --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Coatings --- Thick films --- New optics --- Optics --- Light amplification by stimulated emission of radiation --- Masers, Optical --- Optical masers --- Light amplifiers --- Light sources --- Optoelectronic devices --- Nonlinear optics --- Optical parametric oscillators --- Surfaces (Technology). --- Machines, Tools, Processes. --- Surfaces, Interfaces and Thin Film. --- Laser. --- Surface phenomena --- Friction --- Surfaces (Physics) --- Tribology --- Surfaces --- Laser beam cutting.
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Heat --- Thin films. --- Conduction. --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Surfaces (Technology) --- Coatings --- Thick films --- Conduction of heat
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Hydrophobic surfaces. --- Lipophilic surfaces --- Surfaces, Hydrophobic --- Surfaces, Lipophilic --- Surface chemistry
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Heat Transport in Micro- and Nanoscale Thin Films presents aspects and applications of the principle methods of heat transport in relation to nanoscale films. Small-scale parts and thin films are widely used in the electronics industry. However, the drastic change in the thermal conductivity with reducing device size and film thickness modifies the energy transport by heat-carrying phonons in the film. Energy transfer in small-sized devices and thin films deviate from the classical diffusion to radiative transport. This book deals with micro/nano scale heat transfer in small scale devices and the thin films, including interface properties of cross-plane transport. The book fills the gap between applications of the physical fundamentals and energy transport at the micro- and nano scale, which will be valuable for academics, researchers and students in the fields of materials science and energy transport.
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