Intermetallics 2016

doi:10.3390/books978-3-03842-631-8

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Intermetallics 2016

Edited by

December 2017

216 pages

ISBN978-3-03842-630-1 (Paperback)
ISBN978-3-03842-631-8 (PDF)

https://doi.org/10.3390/books978-3-03842-631-8

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This book is a reprint of the Special Issue Intermetallics 2016 that was published in

Chemistry & Materials Science

Engineering

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Paperback

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Keywords

self-propagating high-temperature synthesis; Ta₅Si₃; numerical simulation; activation energy; Arrhenius factor; thermal conductivity; TiAl; intermetallics; composite; compression properties; numerical simulation; TiAl alloys; investment casting; shrinkage porosity; Mo alloy; FeCrAl; plasma thermal spray; laser treatment; TiNi shape memory alloy; equal channel angular pressing; finite element method; strain homogeneity; microhardness; metallic glasses; microalloying; glass-forming ability; synchrotron radiation; microstructure; reverse Monte-Carlo simulation; Bi₂Te_2.55Se_0.45 thermoelectric material; diffusion soldering; intermetallic compounds; bonding strength; diffusion bonding; TiAl; stainless steel; multilayers; composite; Mg-Zn-Ca; bulk metallic glass; self-degraded ability; mechanical properties; transition metal silicides; D8_m-Ta₅Si₃; first principle calculation; mechanical properties; overlapping factor; Ti–6Al–4V; Inconel-600; fiber laser; T-joint; pull test; NiTi; gas-solid reactions; fluidization reaction; nanosized structures; titanium aluminides alloy; single phase steel; hot forming; dynamic recrystallization; modeling; B2-(Ni,Pt)Al bond coatings; oxidation; martensitic transformation; crystal structure; porous Cu interlayer; Sn-3.0Ag-0.5Cu solder alloy; joint strength; fracture morphology; iron aluminides; friction welding; dynamic recrystallization; tribocorrosion; Ti6Al4V; laser-treated titanium alloy; n/a