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lubrication --- wear --- surface engineering --- tribology --- friction --- Friction --- Friction. --- Mechanics --- Bearings (Machinery) --- Tribology --- Engineering sciences. Technology
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design --- production technology --- manufacturing --- materials --- surface engineering --- Mechanical engineering --- Mechanical engineering. --- Engineering, Mechanical --- Engineering --- Machinery --- Steam engineering
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Materials are at the center of all technological advances; it is evident in considering the spectacular progress that has been made in fields as diverse as engineering, medicine, biology, etc. Materials science and technology must develop researches allowing the generation of new methods of protection to reduce fundamentally the losses of human life as well as the economic ones. The former are impossible of quantifying, while the latter are highly significant; thus, only those derived from corrosive processes in their different forms reach, in technologically developed countries, about 4% of the Gross National Product (GNP), while those derived from fire action range from 0.5 to 1.0% of the mentioned GNP. The book, in the different chapters, displays original systems of superficial protection and of low environmental impact to minimize the losses by corrosion and the fire action.
Protective Coatings. --- Coating compositions --- Coatings --- Corrosion and anti-corrosives --- Physical Sciences --- Engineering and Technology --- Materials Science --- Ceramics --- Surface Engineering
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"Heat Treatment and Surface Engineering (HTSE) is an Open Access and international peer reviewed academic journal which aims to foster and promote the scientific understanding and technological development in the areas of heat treatment and surface engineering of metals and other materials."
Metals --- Surfaces (Technology) --- Heat treatment --- Heat treatment. --- Metallic elements --- Chemical elements --- Ores --- Metallurgy --- Heat treatment of metals --- Materials --- Surface phenomena --- Friction --- Surfaces (Physics) --- Tribology --- Surfaces --- Metallurgy & Mineralogy --- heat treatment --- surface engineering --- thermomechanical processing --- metals --- surface coatings
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This book discusses the latest developments in the surface engineering of C/N/O functionalized materials, including both experimental and theoretical studies on heat treatment and surface engineering of metals, ceramics, and polymers.
Research & information: general --- Technology: general issues --- distribution of characteristic times --- electrical conductivity relaxation --- surface exchange coefficient --- bulk diffusion coefficient --- pressureless sintering --- boron carbide --- transition metal oxide --- multiphase ceramics --- solid oxide fuel cells --- oxygen reduction electrode --- electrocatalytic activity --- duplex surface engineering --- decarburization --- carburization --- plasma nitriding --- nitriding kinetics --- proton-conducting oxide --- LaNbO4 --- NiO --- sintering --- theoretical calculations --- basalt fibers --- composites --- mechanical properties --- surface engineering --- polylactic acid --- polyethylene glycol --- electrospinning --- heat-not-burn tobacco --- cooling performance --- TA2 alloy --- cold-rolling deformation --- recrystallization --- low-temperature nitriding --- microstructure --- 3Cr13 steel --- microhardness --- corrosion resistance --- 38CrMoAl steel --- modified layer --- nanomaterials --- PVDF --- piezoelectric performance
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This book discusses the latest developments in the surface engineering of C/N/O functionalized materials, including both experimental and theoretical studies on heat treatment and surface engineering of metals, ceramics, and polymers.
distribution of characteristic times --- electrical conductivity relaxation --- surface exchange coefficient --- bulk diffusion coefficient --- pressureless sintering --- boron carbide --- transition metal oxide --- multiphase ceramics --- solid oxide fuel cells --- oxygen reduction electrode --- electrocatalytic activity --- duplex surface engineering --- decarburization --- carburization --- plasma nitriding --- nitriding kinetics --- proton-conducting oxide --- LaNbO4 --- NiO --- sintering --- theoretical calculations --- basalt fibers --- composites --- mechanical properties --- surface engineering --- polylactic acid --- polyethylene glycol --- electrospinning --- heat-not-burn tobacco --- cooling performance --- TA2 alloy --- cold-rolling deformation --- recrystallization --- low-temperature nitriding --- microstructure --- 3Cr13 steel --- microhardness --- corrosion resistance --- 38CrMoAl steel --- modified layer --- nanomaterials --- PVDF --- piezoelectric performance
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Textiles are commonly constituted of natural and synthetic fibers for normal applications. To impart functional or aesthetic effects on the textiles, the surface characteristics in the fiber play an important role. Therefore, surface treatment or modification is a possible way to provide value-added properties to textiles. The textile material/fiber surface can be treated or modified physically and/or chemically to achieve different desired effects. This book will provide an open forum to draw the attention of academic researchers and industrial experts to looking into different aspects of the surface treatment of textiles.
Technology: general issues --- healthcare textile --- antibacterial property --- hand feel value --- washing durability --- polytetrafluoroethylene --- carbon material --- aramid fiber --- material modification --- surface engineering --- ion implantation --- MEVVA --- antibacterial --- corrosion --- UV protection --- graphene --- polyester --- thermal conductivity --- heat transmission --- near-infrared --- reflectance --- absorbance --- Moringa oleifera --- Aegle marmelos --- organic cotton --- nano-emulsion --- antimicrobial resistance --- antifungal efficacy --- wash fastness --- healthcare textile --- antibacterial property --- hand feel value --- washing durability --- polytetrafluoroethylene --- carbon material --- aramid fiber --- material modification --- surface engineering --- ion implantation --- MEVVA --- antibacterial --- corrosion --- UV protection --- graphene --- polyester --- thermal conductivity --- heat transmission --- near-infrared --- reflectance --- absorbance --- Moringa oleifera --- Aegle marmelos --- organic cotton --- nano-emulsion --- antimicrobial resistance --- antifungal efficacy --- wash fastness
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To protect metals or alloys from corrosion, some methods can be used such as isolating the structure from the aggressive media or compensating the loss of electrons from the corroded structure. The use of corrosion inhibitors may include organic and inorganic compounds that adsorb on the metallic structure to isolate it from its surrounding media to decrease oxidation-reduction processes. This book collects new developments about corrosion inhibitors and their recent applications.
Corrosion and anti-corrosives. --- Anti-corrosive paint --- Atmospheric corrosion --- Metal corrosion --- Metals --- Rust --- Rustless coatings --- Chemical inhibitors --- Chemistry, Technical --- Fouling --- Materials --- Weathering --- Paint --- Protective coatings --- Waterproofing --- Corrosion --- Deterioration --- Surfaces --- Physical Sciences --- Engineering and Technology --- Materials Science --- Metals and Nonmetals --- Surface Engineering
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Textiles are commonly constituted of natural and synthetic fibers for normal applications. To impart functional or aesthetic effects on the textiles, the surface characteristics in the fiber play an important role. Therefore, surface treatment or modification is a possible way to provide value-added properties to textiles. The textile material/fiber surface can be treated or modified physically and/or chemically to achieve different desired effects. This book will provide an open forum to draw the attention of academic researchers and industrial experts to looking into different aspects of the surface treatment of textiles.
Technology: general issues --- healthcare textile --- antibacterial property --- hand feel value --- washing durability --- polytetrafluoroethylene --- carbon material --- aramid fiber --- material modification --- surface engineering --- ion implantation --- MEVVA --- antibacterial --- corrosion --- UV protection --- graphene --- polyester --- thermal conductivity --- heat transmission --- near-infrared --- reflectance --- absorbance --- Moringa oleifera --- Aegle marmelos --- organic cotton --- nano-emulsion --- antimicrobial resistance --- antifungal efficacy --- wash fastness --- n/a
Choose an application
Textiles are commonly constituted of natural and synthetic fibers for normal applications. To impart functional or aesthetic effects on the textiles, the surface characteristics in the fiber play an important role. Therefore, surface treatment or modification is a possible way to provide value-added properties to textiles. The textile material/fiber surface can be treated or modified physically and/or chemically to achieve different desired effects. This book will provide an open forum to draw the attention of academic researchers and industrial experts to looking into different aspects of the surface treatment of textiles.
healthcare textile --- antibacterial property --- hand feel value --- washing durability --- polytetrafluoroethylene --- carbon material --- aramid fiber --- material modification --- surface engineering --- ion implantation --- MEVVA --- antibacterial --- corrosion --- UV protection --- graphene --- polyester --- thermal conductivity --- heat transmission --- near-infrared --- reflectance --- absorbance --- Moringa oleifera --- Aegle marmelos --- organic cotton --- nano-emulsion --- antimicrobial resistance --- antifungal efficacy --- wash fastness --- n/a
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