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Following a previous topic (Scientific advances in STEM: from professors to students; https://www.mdpi.com/topics/advances_stem), this new topic aims to highlight the importance of establishing collaborations among research groups from different disciplines, combining the scientific knowledge from basic to applied research as well as taking advantage of different research facilities. Fundamental science helps us to understand phenomenological basics, while applied science focuses on products and technology developments, highlighting the need to perform a transference of knowledge to society and the industrial sector.
Technology: general issues --- History of engineering & technology --- porous dental implant --- fatigue resistance --- cellular behavior --- surface roughness --- chemicaletching --- bioglass coating --- porous titanium --- femtosecond laser --- surface modification --- instrumented micro-indentation --- scratch test --- wettability --- cell culture --- electrical impedance --- osseointegration --- bimodal microstructure --- hot-pressing --- powder metallurgy --- mechanicalmilling --- mechanical behavior --- biofilms --- gelatin --- nanoparticles --- iron oxide --- antioxidant activity --- antibacterial activity --- electrospinning --- cellulose acetate --- ethylcellulose --- nanostructures --- rheological properties --- thermal properties --- microstructure --- bioplastics --- rice bran --- rice bran oil --- valorization --- starch --- injection molding --- Rugulopteryx okamurae --- DMA --- seaweed --- : cost function --- controlled release --- Arrabidae chica Verlot --- chitosan/alginate membranes
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The demand for aluminum alloys is increasing because of their lightness, high specific strength and other attractive properties, which can exploited in improved products for a greener environment. This book gives a correlation between the processing, microstructure and properties of several aluminium alloys. Some of them are well established and used in an enormous number of applications, while others are still under development. The processing spans from casting, rapid solidification, additive manufacturing, forming, heat-treatment and welding, which can produce interesting microstructures and a useful combination of properties.
Technology: general issues --- Al alloy --- laser induced arc hybrid welding --- heat treatment --- microstructure --- wrought aluminium alloy --- homogenization annealing --- thermodynamic equilibrium --- intermetallic phases --- differential scanning calorimetry (DSC) --- characterization methods --- scalability --- mechanical properties --- aluminium alloys --- aluminium --- ageing --- quasicrystal --- transmission electron microscopy --- aluminium alloy --- SLM --- auxetic structures --- numerical analysis --- fatigue --- Al alloy 7075-T6 --- ultrasonic fatigue --- artificial pits --- pre-corrosion --- crack initiation --- 7xxx aluminum series --- early precipitation stages --- corrosion --- Al3(Sc,Zr) particles --- annihilation of positrons --- activation energy --- material flow --- asymmetric weld --- tensile strength --- VPPA --- aluminum alloy AA5083 --- rapid solidification --- melt spinning --- high-strength aluminum --- extrusion --- bimodal microstructure --- precipitations
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The demand for aluminum alloys is increasing because of their lightness, high specific strength and other attractive properties, which can exploited in improved products for a greener environment. This book gives a correlation between the processing, microstructure and properties of several aluminium alloys. Some of them are well established and used in an enormous number of applications, while others are still under development. The processing spans from casting, rapid solidification, additive manufacturing, forming, heat-treatment and welding, which can produce interesting microstructures and a useful combination of properties.
Technology: general issues --- Al alloy --- laser induced arc hybrid welding --- heat treatment --- microstructure --- wrought aluminium alloy --- homogenization annealing --- thermodynamic equilibrium --- intermetallic phases --- differential scanning calorimetry (DSC) --- characterization methods --- scalability --- mechanical properties --- aluminium alloys --- aluminium --- ageing --- quasicrystal --- transmission electron microscopy --- aluminium alloy --- SLM --- auxetic structures --- numerical analysis --- fatigue --- Al alloy 7075-T6 --- ultrasonic fatigue --- artificial pits --- pre-corrosion --- crack initiation --- 7xxx aluminum series --- early precipitation stages --- corrosion --- Al3(Sc,Zr) particles --- annihilation of positrons --- activation energy --- material flow --- asymmetric weld --- tensile strength --- VPPA --- aluminum alloy AA5083 --- rapid solidification --- melt spinning --- high-strength aluminum --- extrusion --- bimodal microstructure --- precipitations
Choose an application
The demand for aluminum alloys is increasing because of their lightness, high specific strength and other attractive properties, which can exploited in improved products for a greener environment. This book gives a correlation between the processing, microstructure and properties of several aluminium alloys. Some of them are well established and used in an enormous number of applications, while others are still under development. The processing spans from casting, rapid solidification, additive manufacturing, forming, heat-treatment and welding, which can produce interesting microstructures and a useful combination of properties.
Al alloy --- laser induced arc hybrid welding --- heat treatment --- microstructure --- wrought aluminium alloy --- homogenization annealing --- thermodynamic equilibrium --- intermetallic phases --- differential scanning calorimetry (DSC) --- characterization methods --- scalability --- mechanical properties --- aluminium alloys --- aluminium --- ageing --- quasicrystal --- transmission electron microscopy --- aluminium alloy --- SLM --- auxetic structures --- numerical analysis --- fatigue --- Al alloy 7075-T6 --- ultrasonic fatigue --- artificial pits --- pre-corrosion --- crack initiation --- 7xxx aluminum series --- early precipitation stages --- corrosion --- Al3(Sc,Zr) particles --- annihilation of positrons --- activation energy --- material flow --- asymmetric weld --- tensile strength --- VPPA --- aluminum alloy AA5083 --- rapid solidification --- melt spinning --- high-strength aluminum --- extrusion --- bimodal microstructure --- precipitations
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