Reprint

Physical Metallurgy of High Manganese Steels

Edited by
December 2019
212 pages
  • ISBN978-3-03921-856-1 (Paperback)
  • ISBN978-3-03921-857-8 (PDF)

This is a Reprint of the Special Issue Physical Metallurgy of High Manganese Steels that was published in

Chemistry & Materials Science
Engineering
Summary

The Special Issue ‘Physical Metallurgy of High Manganese Steels’ addresses the highly fascinating class of manganese-alloyed steels with manganese contents well above 3 mass%. The book gathers manuscripts from internationally recognized researchers with stimulating new ideas and original results. It consists of fifteen original research papers. Seven contributions focus on steels with manganese contents above 12 mass%. These contributions cover fundamental aspects of process-microstrcuture-properties relationships with processes ranging from cold and warm rolling over deep rolling to heat treatment. Novel findings regarding the fatigue and fracture behavior, deformation mechanisms, and computer-aided design are presented. Additionally, the Special Issue also reflects the current trend of reduced Mn content (3-12 mass%) in advanced high strength steels (AHSS). Eight contributions were dedicated to these alloys, which are often referred to as 3rd generation AHSS, medium manganese steels or quenching and partitioning (Q&P/Q+P) steels. The interplay between advanced processing, mainly novel annealing variants, and microstructure evolution has been addressed using computational and experimental approaches. A deeper understanding of strain-rate sensitivity, hydrogen embrittlement, phase transformations, and the consequences for the materials’ properties has been developed. Hence, the topics included are manifold, fundamental-science oriented and, at the same time, relevant to industrial application.

Format
  • Paperback
License and Copyright
© 2020 by the authors; CC BY license
Keywords
medium-manganese steel; TRIP; strain-rate sensitivity; Lüders band; serrated flow; in-situ DIC tensile tests; TWIP steel; deformation twinning; serrated flow; dynamic strain aging; damage; fracture; medium-manganese; forging; austenite reversion; mechanical properties; microstructure; D&P steel; processing; microstructure; phase transformation; dislocation density; mechanical properties; MMn steel X20CrNiMnVN18-5-10; V alloying; corrosion resistance; precipitations; ultrafine grains; high-manganese steels; high-entropy alloys; alloy design; plastic deformation; annealing; microstructure; texture; mechanical properties; neutron diffraction; austenite stability; medium manganese steel; double soaking; localized deformation; medium-Mn steel; hot-stamping; double soaking; continuous annealing; quenching and partitioning; high strength steel; high manganese steel; crash box; lightweight; multiscale simulation; high-Mn steels; twinning induced plasticity; cold rolling; recrystallization annealing; grain refinement; strengthening; austenitic high nitrogen steel (HNS); cold deformation; fatigue; high manganese steel; warm rolling; processing; microstructure; texture; mechanical properties; deformation behavior; high-manganese steel; deep rolling; TWIP; TRIP; near surface properties; residual stresses; fatigue behavior; intercritical annealing; medium manganese steel; phase field simulation; medium-Mn steel; austenite-reversed-transformation; retained austenite; hydrogen embrittlement; ultrafine-grained microstructure; strain-hardening behavior; n/a

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