Reprint

Structure and Mechanical Properties of Transition Group Metals, Alloys, and Intermetallic Compounds

Edited by
July 2019
222 pages
  • ISBN978-3-03921-146-3 (Paperback)
  • ISBN978-3-03921-147-0 (PDF)

This is a Reprint of the Special Issue Structure and Mechanical Properties of Transition Group Metals, Alloys, and Intermetallic Compounds that was published in

Chemistry & Materials Science
Engineering
Physical Sciences
Summary
The aim of this Special Issue is to present the latest theoretical and experimental achievements concerning the mechanisms of microstructural change in metallic materials subject to different processing methods, and their effect on mechanical properties. It is my pleasure to present a series of compelling scientific papers written by scientists from the community of transition group metals, alloys, and intermetallic compounds.
Format
  • Paperback
License and Copyright
© 2019 by the authors; CC BY-NC-ND license
Keywords
metal matrix composites; laser metal deposition; Inconel 625; additive manufacturing; laser processing; metal matrix composites; Z-pin reinforcement; delamination; carbon fiber; strengthening mechanisms; severe plastic deformation (SPD); cross-channel extrusion (CCE); back pressure (BP); numerical simulation (FEM); physical modeling technique (PMT); metal–matrix composites (MMCs); carbon fiber; mechanical properties; z-pin reinforcement; laminate; titanium alloys; high pressure torsion; microhardness; Cu–Ag alloy; high-pressure torsion; ultrafine microstructure; phase dissolution; microhardness; friction stir welding; heat treatment; AA2519; microstructure; fatigue; fractography; AZ91; magnesium alloys; creep; high pressure die casting; additive manufacturing; Ti-6Al-4V; LENS; mechanical characterization; twin roll casting; magnesium alloy; calcium; Mg-Zn-Al-Ca alloy; texture; flow curve; processing map; honeycomb structure; additive manufacturing; laser engineered net shaping; LENS; Ti6Al4V alloy; energy absorption; dynamic tests; solidification thermal parameters; Cu-Al-Ni-Fe bronze alloys; hardness; microhardness; specific intermetallics; MAX phase; Ti3SiC2; composite; high energy ball milling; spark plasma sintering; structure; mechanical properties; deformation behavior; tribaloy-type alloy; CoCrMoSi alloy coatings; T-800 alloy; Laves phase; Laser Engineered Net Shaping (LENSTM); electron microscopy (in situ SEM); delamination; metal matrix composites (MMCs); z-pinning