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Powder metallurgy --- Métallurgie des poudres --- Metallurgy, Powder --- Powder metal processes --- Compacting --- Metallurgy --- Métallurgie des poudres
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Sintering --- Frittage (Métallurgie) --- Frittage (Métallurgie) --- Sintering. --- Frittage --- Additive manufacturing --- Iron --- Powder metallurgy --- Isostatic pressing --- Metallurgy --- Monograph --- Ceramic powders --- Microstructure
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As sintering applications march toward a 30 billion global business, the models for sintering have progressed, but generally follow behind observation. Documentation of the steps needed to build to a quantitative and predictive theory are often missed. Sintering: From Empirical Observations to Scientific Principles partitions sintering applications and observations to show critical turning points required to establish modern sintering as a predictive science. This book, written by the most cited author in his field, is laced with people, organizations, critical steps, and im
Nanostructured materials. --- Sintering -- Congresses. --- Sintering. --- Sintering --- Mechanical Engineering --- Engineering & Applied Sciences --- Metallurgy & Mineralogy --- Sinter (Metallurgy) --- Sinterings --- Metallurgy
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This book is focused on composites involving powders as the starting materials. It provides relevant information for questions related to the selection of constituent phases, most economic fabrication routes, proper testing procedures, and product optimization. The field is sufficiently advanced that predictive models guide many decisions. Applications are illustrated over a broad range of material and property combinations. This title includes: •Selection of phases with consideration of intersolubility & interface •Microstructure, especially the role of phase connectivity •Fabrication approaches, especially net-shape consolidation •Assessment of typical properties, testing techniques & industry standards •Design & trade-off decisions involved in optimization, including cost •Applications, both those that have matured and some emerging prospects. The reader may have little appreciation for how particulate composites are literally everywhere. Examples include new wear resistant consumer products(Apple watch), longer lasting automotive tires with reduced rolling resistance(Yokohama tires), and new diamond heat sinks for computers(Element Six substrates). Particulate composites also form critical components in applications such as magnets, dental fillings, brakes, darts, bio-implants, & cutting tools. Particulate composites are a multi-billion dollar industry, and can be a cost-effective solution ripe for innovation and continued rapid growth. For the engineer, the wide range of particulate composite formulation and property combinations offers the ability to design for a variety of application and provides ample opportunity for innovation. Particulate Composites: Fundamentals & Applications is ideal for use in a one-semester eng. course at the senior UG/graduate level, and is also suitable as a practical reference for materials scientists in academia and industry.
Materials science. --- Structural mechanics. --- Engineering --- Metals. --- Materials --- Thin films. --- Materials Science. --- Ceramics, Glass, Composites, Natural Methods. --- Materials Engineering. --- Structural Mechanics. --- Metallic Materials. --- Surfaces and Interfaces, Thin Films. --- Materials. --- Surfaces. --- Films, Thin --- Solid film --- Surface phenomena --- Metallic elements --- Engineering materials --- Industrial materials --- Architectural engineering --- Engineering, Architectural --- Structural mechanics --- Structures, Theory of --- Material science --- Surfaces --- Mechanics. --- Mechanics, Applied. --- Surfaces (Physics). --- Ceramics, Glass, Composites, Natural Materials. --- Solid Mechanics. --- Physics --- Surface chemistry --- Surfaces (Technology) --- Engineering design --- Manufacturing processes --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Classical mechanics --- Newtonian mechanics --- Dynamics --- Quantum theory --- Ceramics. --- Glass. --- Composites (Materials). --- Composite materials. --- Engineering—Materials. --- Materials—Surfaces. --- Solid state electronics --- Solids --- Coatings --- Thick films --- Chemical elements --- Ores --- Metallurgy --- Composites (Materials) --- Multiphase materials --- Reinforced solids --- Solids, Reinforced --- Two phase materials --- Amorphous substances --- Ceramics --- Glazing --- Ceramic technology --- Industrial ceramics --- Keramics --- Building materials --- Chemistry, Technical --- Clay
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Phase rule and equilibrium --- Sintering --- Iron --- Isostatic pressing --- Powder metallurgy --- Chemistry, Physical and theoretical --- Critical phenomena (Physics) --- Equilibrium --- Chemical equilibrium --- Chemical systems --- Critical point --- Metallurgy --- Phase rule and equilibrium. --- Sintering. --- Frittage --- Additive manufacturing --- PHASE RULE --- Phase equilibrium --- Monograph
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Materials sciences --- Metallurgy --- poedermetallurgie --- Powder metallurgy --- Metallurgy, Powder --- Powder metal processes --- Compacting
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Iron --- Powder metallurgy. --- Steel --- Metallurgy. --- Metallurgy.
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This book is focused on composites involving powders as the starting materials. It provides relevant information for questions related to the selection of constituent phases, most economic fabrication routes, proper testing procedures, and product optimization. The field is sufficiently advanced that predictive models guide many decisions. Applications are illustrated over a broad range of material and property combinations. This title includes: •Selection of phases with consideration of intersolubility & interface •Microstructure, especially the role of phase connectivity •Fabrication approaches, especially net-shape consolidation •Assessment of typical properties, testing techniques & industry standards •Design & trade-off decisions involved in optimization, including cost •Applications, both those that have matured and some emerging prospects. The reader may have little appreciation for how particulate composites are literally everywhere. Examples include new wear resistant consumer products(Apple watch), longer lasting automotive tires with reduced rolling resistance(Yokohama tires), and new diamond heat sinks for computers(Element Six substrates). Particulate composites also form critical components in applications such as magnets, dental fillings, brakes, darts, bio-implants, & cutting tools. Particulate composites are a multi-billion dollar industry, and can be a cost-effective solution ripe for innovation and continued rapid growth. For the engineer, the wide range of particulate composite formulation and property combinations offers the ability to design for a variety of application and provides ample opportunity for innovation. Particulate Composites: Fundamentals & Applications is ideal for use in a one-semester eng. course at the senior UG/graduate level, and is also suitable as a practical reference for materials scientists in academia and industry.
Solid state physics --- Surface chemistry --- Metals and their compounds --- Materials sciences --- Applied physical engineering --- Engineering sciences. Technology --- Metallurgy --- Chemical technology --- composieten --- remmen --- materiaalkennis --- ingenieurswetenschappen --- fysica --- mechanica --- metalen --- chemische technologie --- auto's --- fysicochemie
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As sintering applications march toward a 30 billion global business, the models for sintering have progressed, but generally follow behind observation. Documentation of the steps needed to build to a quantitative and predictive theory are often missed. Sintering: From Empirical Observations to Scientific Principles partitions sintering applications and observations to show critical turning points required to establish modern sintering as a predictive science. This book, written by the most cited author in his field, is laced with people, organizations, critical steps, and im.
Choose an application
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