Reprint

Microstructure and Mechanical Properties of Structural Metals and Alloys

Edited by
June 2019
272 pages
  • ISBN978-3-03897-505-2 (Paperback)
  • ISBN978-3-03897-506-9 (PDF)

This book is a reprint of the Special Issue Microstructure and Mechanical Properties of Structural Metals and Alloys that was published in

Chemistry & Materials Science
Engineering
Summary

The papers collected in this special issue clearly reflect the modern research trends in materials science. These fields of specific attention are high-Mn TWIP steels, high-Cr heat resistant steels, aluminum alloys, ultrafine grained materials including those developed by severe plastic deformation, and high-entropy alloys. The major portion of the collected papers is focused on the mechanisms of microstructure evolution and the mechanical properties of metallic materials subjected to various thermo-mechanical, deformation or heat treatments. Another large portion of the studies is aimed on the elaboration of alloying design of advanced steels and alloys. The changes in phase content, transformation and particle precipitation and their effect on the properties are also broadly presented in this collection, including the microstructure/property changes caused by irradiation.

Format
  • Paperback
License
© 2019 by the authors; CC BY-NC-ND licence
Keywords
Mg–Sm–Zn–Zr; dynamic precipitation; microstructure; mechanical property; bimodal ferrite steel; ultrafine-grained microstructure; mechanical properties; corrosion resistance; abnormal grain growth; grain boundary engineering; electron backscattered diffraction; growth rate; Al metal matrix composites; microstructure; mechanical properties; strengthening mechanism; hot compression; dynamic recovery; dynamic recrystallization; texture; aluminum alloys; Al-Fe-Si-Zr system; microstructure; hardness; electrical conductivity; metal–matrix composite; high-pressure torsion; microstructure evolution; microhardness; shape memory alloy; columnar grain; Cu-Al-Mn; elastocaloric effect; strain rate; measuring temperature; creep; lead-free solder; Sb solder; Sn-8.0Sb-3.0Ag; solder microstructure; martensitic steels; creep; precipitation; electron microscopy; high-Mn TWIP steel; cold rolling; annealing; recovery; recrystallization; strengthening; austenitic 304 stainless steels; sub-merged arc welding; post-weld heat treatment; aluminum alloys; aging; precipitation; electrical resistivity; mechanical properties; ferritic steel; irradiation; nanoindentation; hardness; transmission electron microscopy (TEM); microstructure; high-entropy alloys; high-pressure torsion; microstructure evolution; twinning; mechanical properties; welded rotor; weld metal; impact toughness; PWHT; microstructure evolution; Cu-Cr-Zr; precipitation; orientation relationship; recrystallization; annealing twins; structural steel plate; nonmetallic inclusions; rare earth control; M23C6; ion irradiation; M6C; amorphization; RAFM steels; hot stamping; press hardening; martensitic expansion; force peak; cycle time; high-Mn steel; deformation twinning; dynamic recrystallization; grain refinement; work hardening; in situ tensile testing; super duplex stainless steel; SDSS; low-temperature; σ-phase; SEM; EBSD; microstructure analysis; n/a