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Mechanical alloying. --- High energy milling --- Mechanical milling --- Milling, High energy --- Milling, Mechanical --- Mechanical chemistry --- Metallurgy --- Mixing
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This volume contains the technical papers presented at the international symposium entitled "Processing and Fabrication of Advanced Materials VIII", held in Singapore in 1999. This was the eighth in a series of symposia bringing together engineers and researchers from industry, academia and national laboratories, working on aspects related to the processing, fabrication and characterization of advanced materials, to present and discuss their latest findings. The proceedings also contain technical papers presented at two special symposia on biomaterials and magnesium technology.
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Ceramic materials --- Mechanical alloying --- Metallic composites --- High energy milling --- Mechanical milling --- Milling, High energy --- Milling, Mechanical --- Mechanical chemistry --- Metallurgy --- Mixing
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Unique in bringing about a solid-state reaction at room temperature, mechanical alloying produces powders and compounds difficult or impossible to obtain by conventional techniques. Immediate and cost-effective industry applications of the resultant advanced materials are in cutting tools and high performance aerospace products such as metal matrix armor and turbine blades. The book is a guided introduction to mechanical alloying, covering material requirements equipment, processing, and engineering properties and characteristics of the milled powders. Chapters 3 and 4 treat the fabrication of
Mechanical alloying --- High energy milling --- Mechanical milling --- Milling, High energy --- Milling, Mechanical --- Mechanical chemistry --- Metallurgy --- Mixing --- Material Science and Metallurgy --- General and Others --- Mechanical alloying. --- Physical metallurgy. --- Physics
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This book is a detailed introduction to mechanical alloying, offering guidelines on the necessary equipment and facilities needed to carry out the process and giving a fundamental background to the reactions taking place. El-Eskandarany, a leading authority on mechanical alloying, discusses the mechanism of powder consolidations using different powder compaction processes. A new chapter will also be included on thermal, mechanically-induced and electrical discharge-assisted mechanical milling. Fully updated to cover recent developments in the field, this second edition also introduces new a
Materials. --- Mechanical alloying. --- Nanotechnology. --- Mechanical Engineering --- Engineering & Applied Sciences --- Metallurgy & Mineralogy --- Molecular technology --- Nanoscale technology --- High technology --- High energy milling --- Mechanical milling --- Milling, High energy --- Milling, Mechanical --- Mechanical chemistry --- Metallurgy --- Mixing
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Nanostructured materials --- Mechanical alloying --- Mechanical alloying. --- Nanostructured materials. --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology --- High energy milling --- Mechanical milling --- Milling, High energy --- Milling, Mechanical --- Mechanical chemistry --- Metallurgy --- Mixing
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Nanostructured materials --- Mechanical alloying --- High energy milling --- Mechanical milling --- Milling, High energy --- Milling, Mechanical --- Mechanical chemistry --- Metallurgy --- Mixing --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology
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Nanostructured materials. --- Mechanical alloying. --- Mechanical engineering. --- Engineering, Mechanical --- Engineering --- Machinery --- Steam engineering --- High energy milling --- Mechanical milling --- Milling, High energy --- Milling, Mechanical --- Mechanical chemistry --- Metallurgy --- Mixing --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology
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Metal-based composites represent a unique way of tailoring the properties of metals, through the selection of type, size, and amount of reinforcement. In this way, the properties of metallic matrices can be adjusted depending on end applications. In view of the dynamic capabilities they can exhibit, this Special Issue will cover all aspects of metal matrix composites: synthesis (including solid, liquid, two-phase and 3D printing); secondary processing; properties (tensile, compressive, fatigue, impact, creep, tribological, etc.); corrosion behavior; and joining techniques. The main objective is to share the latest results on metal matrix composites with the research community worldwide.
History of engineering & technology --- Mg-3Al-0.4Ce alloy --- nano ZnO particles --- uniform distribution --- strength --- titanium matrix composite --- constitutive model --- interfacial debonding --- high temperature --- elastoplastic properties --- nano-sized SiCp --- aluminum matrix composites --- mechanical properties --- microstructures --- Mg-Al-RE alloy --- magnesium alloy --- damping --- Al11La3 phase --- nanosize reinforcement --- spark plasma sintering --- Cu-TiC --- in-situ composites --- mechanical milling --- iron aluminum alloys --- cold/hot PM --- compressibility factor --- wear resistance --- Al-Zn-Cr alloys --- powder metallurgy --- strengthening --- extrusion --- dry sliding wear --- synthesis of core-shell metal nanoparticles --- Cu@Ag composite nanoparticle --- metal mesh --- screen printing --- touch screen panel --- tungsten composites --- tungsten-fibre-net reinforcement --- tensile strength --- metal matrix composites --- nickel --- aluminum --- carbon nanotubes --- ultrasonication --- microstructural characterization --- Magnesium --- Sm2O3 nanoparticles --- compression properties --- microstructure --- ignition --- carbon nanotube --- nanocomposite --- dispersion --- interfacial adhesion --- phase transformation --- physicomechanical properties --- nanoparticles --- metal matrix nanocomposite (MMNC) --- AlN --- magnesium alloy AM60 --- strengthening mechanisms --- in situ titanium composites --- microstructure analysis --- TiB precipitates --- 7075 Al alloy --- reduced graphene oxide --- strengthening mechanism --- metal matrix nanocomposite --- copper --- graphene --- thermal expansion coefficient --- thermal conductivity --- electrical resistance --- thixoforging --- magnesium-based composite --- fracture --- magnesium-alloy-based composite --- Halpin-Tsai-Kardos model --- deformation behavior --- composite strengthening --- fracture behavior --- magnesium --- high entropy alloy --- composite --- hardness --- compressive properties --- tricalcium phosphate --- compression --- corrosion --- Mg-3Al-0.4Ce alloy --- nano ZnO particles --- uniform distribution --- strength --- titanium matrix composite --- constitutive model --- interfacial debonding --- high temperature --- elastoplastic properties --- nano-sized SiCp --- aluminum matrix composites --- mechanical properties --- microstructures --- Mg-Al-RE alloy --- magnesium alloy --- damping --- Al11La3 phase --- nanosize reinforcement --- spark plasma sintering --- Cu-TiC --- in-situ composites --- mechanical milling --- iron aluminum alloys --- cold/hot PM --- compressibility factor --- wear resistance --- Al-Zn-Cr alloys --- powder metallurgy --- strengthening --- extrusion --- dry sliding wear --- synthesis of core-shell metal nanoparticles --- Cu@Ag composite nanoparticle --- metal mesh --- screen printing --- touch screen panel --- tungsten composites --- tungsten-fibre-net reinforcement --- tensile strength --- metal matrix composites --- nickel --- aluminum --- carbon nanotubes --- ultrasonication --- microstructural characterization --- Magnesium --- Sm2O3 nanoparticles --- compression properties --- microstructure --- ignition --- carbon nanotube --- nanocomposite --- dispersion --- interfacial adhesion --- phase transformation --- physicomechanical properties --- nanoparticles --- metal matrix nanocomposite (MMNC) --- AlN --- magnesium alloy AM60 --- strengthening mechanisms --- in situ titanium composites --- microstructure analysis --- TiB precipitates --- 7075 Al alloy --- reduced graphene oxide --- strengthening mechanism --- metal matrix nanocomposite --- copper --- graphene --- thermal expansion coefficient --- thermal conductivity --- electrical resistance --- thixoforging --- magnesium-based composite --- fracture --- magnesium-alloy-based composite --- Halpin-Tsai-Kardos model --- deformation behavior --- composite strengthening --- fracture behavior --- magnesium --- high entropy alloy --- composite --- hardness --- compressive properties --- tricalcium phosphate --- compression --- corrosion
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Metal-based composites represent a unique way of tailoring the properties of metals, through the selection of type, size, and amount of reinforcement. In this way, the properties of metallic matrices can be adjusted depending on end applications. In view of the dynamic capabilities they can exhibit, this Special Issue will cover all aspects of metal matrix composites: synthesis (including solid, liquid, two-phase and 3D printing); secondary processing; properties (tensile, compressive, fatigue, impact, creep, tribological, etc.); corrosion behavior; and joining techniques. The main objective is to share the latest results on metal matrix composites with the research community worldwide.
History of engineering & technology --- Mg-3Al-0.4Ce alloy --- nano ZnO particles --- uniform distribution --- strength --- titanium matrix composite --- constitutive model --- interfacial debonding --- high temperature --- elastoplastic properties --- nano-sized SiCp --- aluminum matrix composites --- mechanical properties --- microstructures --- Mg–Al–RE alloy --- magnesium alloy --- damping --- Al11La3 phase --- nanosize reinforcement --- spark plasma sintering --- Cu–TiC --- in-situ composites --- mechanical milling --- iron aluminum alloys --- cold/hot PM --- compressibility factor --- wear resistance --- Al-Zn-Cr alloys --- powder metallurgy --- strengthening --- extrusion --- dry sliding wear --- synthesis of core–shell metal nanoparticles --- Cu@Ag composite nanoparticle --- metal mesh --- screen printing --- touch screen panel --- tungsten composites --- tungsten-fibre-net reinforcement --- tensile strength --- metal matrix composites --- nickel --- aluminum --- carbon nanotubes --- ultrasonication --- microstructural characterization --- Magnesium --- Sm2O3 nanoparticles --- compression properties --- microstructure --- ignition --- carbon nanotube --- nanocomposite --- dispersion --- interfacial adhesion --- phase transformation --- physicomechanical properties --- nanoparticles --- metal matrix nanocomposite (MMNC) --- AlN --- magnesium alloy AM60 --- strengthening mechanisms --- in situ titanium composites --- microstructure analysis --- TiB precipitates --- 7075 Al alloy --- reduced graphene oxide --- strengthening mechanism --- metal matrix nanocomposite --- copper --- graphene --- thermal expansion coefficient --- thermal conductivity --- electrical resistance --- thixoforging --- magnesium-based composite --- fracture --- magnesium-alloy-based composite --- Halpin-Tsai-Kardos model --- deformation behavior --- composite strengthening --- fracture behavior --- magnesium --- high entropy alloy --- composite --- hardness --- compressive properties --- tricalcium phosphate --- compression --- corrosion --- n/a --- Mg-Al-RE alloy --- Cu-TiC --- synthesis of core-shell metal nanoparticles
Choose an application
Metal-based composites represent a unique way of tailoring the properties of metals, through the selection of type, size, and amount of reinforcement. In this way, the properties of metallic matrices can be adjusted depending on end applications. In view of the dynamic capabilities they can exhibit, this Special Issue will cover all aspects of metal matrix composites: synthesis (including solid, liquid, two-phase and 3D printing); secondary processing; properties (tensile, compressive, fatigue, impact, creep, tribological, etc.); corrosion behavior; and joining techniques. The main objective is to share the latest results on metal matrix composites with the research community worldwide.
Mg-3Al-0.4Ce alloy --- nano ZnO particles --- uniform distribution --- strength --- titanium matrix composite --- constitutive model --- interfacial debonding --- high temperature --- elastoplastic properties --- nano-sized SiCp --- aluminum matrix composites --- mechanical properties --- microstructures --- Mg–Al–RE alloy --- magnesium alloy --- damping --- Al11La3 phase --- nanosize reinforcement --- spark plasma sintering --- Cu–TiC --- in-situ composites --- mechanical milling --- iron aluminum alloys --- cold/hot PM --- compressibility factor --- wear resistance --- Al-Zn-Cr alloys --- powder metallurgy --- strengthening --- extrusion --- dry sliding wear --- synthesis of core–shell metal nanoparticles --- Cu@Ag composite nanoparticle --- metal mesh --- screen printing --- touch screen panel --- tungsten composites --- tungsten-fibre-net reinforcement --- tensile strength --- metal matrix composites --- nickel --- aluminum --- carbon nanotubes --- ultrasonication --- microstructural characterization --- Magnesium --- Sm2O3 nanoparticles --- compression properties --- microstructure --- ignition --- carbon nanotube --- nanocomposite --- dispersion --- interfacial adhesion --- phase transformation --- physicomechanical properties --- nanoparticles --- metal matrix nanocomposite (MMNC) --- AlN --- magnesium alloy AM60 --- strengthening mechanisms --- in situ titanium composites --- microstructure analysis --- TiB precipitates --- 7075 Al alloy --- reduced graphene oxide --- strengthening mechanism --- metal matrix nanocomposite --- copper --- graphene --- thermal expansion coefficient --- thermal conductivity --- electrical resistance --- thixoforging --- magnesium-based composite --- fracture --- magnesium-alloy-based composite --- Halpin-Tsai-Kardos model --- deformation behavior --- composite strengthening --- fracture behavior --- magnesium --- high entropy alloy --- composite --- hardness --- compressive properties --- tricalcium phosphate --- compression --- corrosion --- n/a --- Mg-Al-RE alloy --- Cu-TiC --- synthesis of core-shell metal nanoparticles
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