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Written by an international expert, this book covers the processing, microstructure, and properties of cemented tungsten carbides. It is divided into 18 chapters covering wide areas from crystal structure to phase equilibria, production of metal and carbide powders, and much more. This book is ideal for researchers, plant engineers, and senior level students in metallurgical/mechanical/materials engineering who are interested in cemented carbides. There is no parallel book in print.
Metal-cutting tools. --- Tungsten carbide. --- Titanium carbide.
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Written by an international expert, this book covers the processing, microstructure, and properties of cemented tungsten carbides. It is divided into 18 chapters covering wide areas from crystal structure to phase equilibria, production of metal and carbide powders, and much more. This book is ideal for researchers, plant engineers, and senior level students in metallurgical/mechanical/materials engineering who are interested in cemented carbides. There is no parallel book in print.
Metal-cutting tools. --- Tungsten carbide. --- Titanium carbide. --- Carbides --- Titanium compounds --- Tungsten compounds --- Cutting machines --- Machine-tools
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Self-propagating high-temperature synthesis. --- Titanium diboride --- Titanium carbide --- Explosive compacting. --- Synthesis.
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Self-propagating high-temperature synthesis. --- Titanium diboride --- Titanium carbide --- Explosive compacting. --- Synthesis. --- Synthesis.
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Nanoplasmonics is an area that uses light to couple electrons in metals, and can break the diffraction limit for light confinement into subwavelength zones, allowing for strong field enhancements. In the last two decades, there has been a resurgence of this research topic and its applications. Thus, this Special Issue presents a collection of articles and reviews by international researchers and is devoted to the recent advances in and insights into this research topic, including plasmonic devices, plasmonic biosensing, plasmonic photocatalysis, plasmonic photovoltaics, surface-enhanced Raman scattering, and surface plasmon resonance spectroscopy.
Technology: general issues --- History of engineering & technology --- Materials science --- plasmonics --- localized surface plasmon resonance --- high pressure --- sensing --- SERS --- two-dimensional material --- titanium carbide MXene --- near-field enhancement --- plasmonic material --- optical properties of ultra-thin dielectric films --- surface plasmon spectroscopy --- spectroscopic ellipsometry --- SHINERS --- core-shell nanoparticles --- catalysis --- electrochemistry --- nanowires --- back reflector --- solar cells --- plasmonic --- III-V semiconductor --- surface plasmon resonance --- photonic crystal D-shaped fiber --- refractive index sensor --- dispersion sensor --- second-order dispersion sensor --- waveguide --- SPPs --- FDTD --- bandstop filter --- CMT --- nanocrystalline cellulose --- optical characterization --- copper ion --- poly(3,4-ethylenedioxythiophene) --- structural properties --- optical properties --- Surface Enhanced Raman Scattering (SERS) --- fabrication --- application --- agriculture --- food safety --- gold --- nanoparticles --- thiophenol --- silicon --- nonlinear optics --- sum-frequency generation --- UV-vis spectroscopy --- atomic force microscopy --- CLIO free electron laser --- inverse problem --- copper --- copper oxide --- plasmonics --- localized surface plasmon resonance --- high pressure --- sensing --- SERS --- two-dimensional material --- titanium carbide MXene --- near-field enhancement --- plasmonic material --- optical properties of ultra-thin dielectric films --- surface plasmon spectroscopy --- spectroscopic ellipsometry --- SHINERS --- core-shell nanoparticles --- catalysis --- electrochemistry --- nanowires --- back reflector --- solar cells --- plasmonic --- III-V semiconductor --- surface plasmon resonance --- photonic crystal D-shaped fiber --- refractive index sensor --- dispersion sensor --- second-order dispersion sensor --- waveguide --- SPPs --- FDTD --- bandstop filter --- CMT --- nanocrystalline cellulose --- optical characterization --- copper ion --- poly(3,4-ethylenedioxythiophene) --- structural properties --- optical properties --- Surface Enhanced Raman Scattering (SERS) --- fabrication --- application --- agriculture --- food safety --- gold --- nanoparticles --- thiophenol --- silicon --- nonlinear optics --- sum-frequency generation --- UV-vis spectroscopy --- atomic force microscopy --- CLIO free electron laser --- inverse problem --- copper --- copper oxide
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Nanoplasmonics is an area that uses light to couple electrons in metals, and can break the diffraction limit for light confinement into subwavelength zones, allowing for strong field enhancements. In the last two decades, there has been a resurgence of this research topic and its applications. Thus, this Special Issue presents a collection of articles and reviews by international researchers and is devoted to the recent advances in and insights into this research topic, including plasmonic devices, plasmonic biosensing, plasmonic photocatalysis, plasmonic photovoltaics, surface-enhanced Raman scattering, and surface plasmon resonance spectroscopy.
Technology: general issues --- History of engineering & technology --- Materials science --- plasmonics --- localized surface plasmon resonance --- high pressure --- sensing --- SERS --- two-dimensional material --- titanium carbide MXene --- near-field enhancement --- plasmonic material --- optical properties of ultra-thin dielectric films --- surface plasmon spectroscopy --- spectroscopic ellipsometry --- SHINERS --- core–shell nanoparticles --- catalysis --- electrochemistry --- nanowires --- back reflector --- solar cells --- plasmonic --- III-V semiconductor --- surface plasmon resonance --- photonic crystal D-shaped fiber --- refractive index sensor --- dispersion sensor --- second-order dispersion sensor --- waveguide --- SPPs --- FDTD --- bandstop filter --- CMT --- nanocrystalline cellulose --- optical characterization --- copper ion --- poly(3,4-ethylenedioxythiophene) --- structural properties --- optical properties --- Surface Enhanced Raman Scattering (SERS) --- fabrication --- application --- agriculture --- food safety --- gold --- nanoparticles --- thiophenol --- silicon --- nonlinear optics --- sum-frequency generation --- UV-vis spectroscopy --- atomic force microscopy --- CLIO free electron laser --- inverse problem --- copper --- copper oxide --- n/a --- core-shell nanoparticles
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The Special Issue of the journal Materials, entitled “Novel Material and Technological Solutions in Foundry Engineering”, contains very interesting papers from the field of material science concerning topics such as cast composites, layered castings, selected aspects of the crystallisation of alloys and the technology of cast and heat treatment of Al alloys and cast iron, the properties of moulding sands, properties of Ni-base superalloys, the technology of repairing castings using welding.
Technology: general issues --- History of engineering & technology --- nanocomposite --- nanoparticle --- microstructure --- mechanical --- Babbitt --- alumina --- high-chromium cast iron --- austenitizing conditions --- cooling conditions --- martensite transformation --- hardness --- cylinder heads --- heat treatment --- Brinell hardness --- automotive industry --- superalloy --- HRSTEM --- STEM-EDX --- M23C6 --- nano-borides --- Al-Si-Cu secondary aluminum alloy --- returnable material --- natural and artificial aging --- Cu precipitate --- transmission electron microscopy --- mechanical properties --- crystallization --- thermal and derivative analysis --- bimetallic --- interfacial --- compound casting --- laser surface alloying --- ductile cast iron --- in situ composite --- titanium carbide --- high-tin bronzes --- welding of bell --- bell’s sound --- aluminosilicate --- perlite --- vermiculite --- dehydroxylation --- thermal analysis --- FTIR --- XRD --- XRF --- SEM --- moulding sand --- inorganic binder --- magnetron sputtering --- HIPIMs method --- TiAlN layer --- XRD analysis --- EDS analysis --- surface morphology --- coating thickness --- AFM microscopy --- supergravity crystallization --- gravitational segregation --- texture --- hexagonal alloys --- monotectic transformation --- high-aluminum cast iron --- Al4C3 carbide --- spontaneous disintegration of the casting structure --- casting composite --- silicon carbide --- gray cast iron --- graphite --- pearlite --- reinforcement particles --- metallic matrix --- Inconel 740 --- phase transformation --- investment casting --- solidification
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Thermal spray technology has been widely adopted industrially to combat diverse forms of surface degradation caused by wear, corrosion, oxidation, high thermal load, etc. Nonetheless, improvements in coating quality are incessantly sought to further enhance durability and/or performance of components operating in increasingly aggressive environments. This has led to technology advancements on various fronts, spanning feedstock materials, process variants, torch designs, coating architectures, etc. These have also been complemented by developments in closely allied areas to accommodate novel substrate materials, explore post-treatments, investigate coating behaviour under varied harsh conditions and harness benefits of artificial intelligence/neural networking. All of the above, along with efforts to improve diagnostic tools and create reliable control systems, have been driven by the desire to achieve robust shop-floor thermal spray capabilities to consolidate existing applications and spur new ones. This book is a compilation of twelve exciting contributions made for the Special Issue on “Advances in Thermal Spray Technology”, and showcases some of the above developments that are currently attracting interest in the field.
History of engineering & technology --- carbon/carbon (C/C) composites --- ultra-high temperature ceramic (UHTC) --- vacuum plasma spray (VPS) --- ablation resistance --- thermal spraying --- high velocity oxy-fuel (HVOF) --- S-phase --- expanded austenite --- 316L --- stainless steel --- thermochemical treatment --- hardening --- gas nitriding --- axial feeding --- hybrid plasma spray coating --- bovine serum solution --- sliding wear --- indentation --- double-layered TBC --- gadolinium zirconate --- suspension plasma spray --- thermal cyclic fatigue --- burner rig test --- yttria stabilized zirconia --- titanium carbide --- chromium carbide --- wear --- cold spray --- neural network --- additive manufacturing --- model --- spray angle --- profile --- amorphous --- nanocrystalline --- wear resistant --- Vickers microhardness --- plasma spraying --- high-velocity suspension flame spraying --- copper --- silver --- NiCr 80/20 --- metal coatings --- polymer coatings --- flame spraying --- icephobicity --- ice adhesion --- wettability --- coating design --- corrosion-wear performance --- dense structure --- corrosion potential --- corrosion rate --- worn surface --- HVOF --- hardmetal --- dynamic impact test --- impact wear --- Al2O3-TiO2 system --- APS --- suspension spraying --- microstructure --- morphology --- phase composition --- n/a
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