Physical Metallurgy of High Manganese Steels
Bleck, Wolfgang||Haase, Christian
Physical Metallurgy of High Manganese Steels
English[eng]
n/a||TRIP||microstructure||medium-manganese steel||dislocation density||V alloying||ultrafine grains||intercritical annealing||medium manganese steel||fracture||precipitations||twinning induced plasticity||deformation behavior||fatigue||austenite-reversed-transformation||medium-manganese||Lüders band||medium-Mn steel||fatigue behavior||alloy design||austenitic high nitrogen steel (HNS)||high-entropy alloys||mechanical properties||retained austenite||high-manganese steel||localized deformation||phase transformation||austenite stability||processing||strain-hardening behavior||TWIP steel||recrystallization annealing||damage||strengthening||cold rolling||ultrafine-grained microstructure||serrated flow||multiscale simulation||deformation twinning||annealing||high-Mn steels||corrosion resistance||TWIP||quenching and partitioning||high manganese steel||lightweight||residual stresses||in-situ DIC tensile tests||crash box||deep rolling||high strength steel||plastic deformation||MMn steel X20CrNiMnVN18-5-10||neutron diffraction||phase field simulation||dynamic strain aging||cold deformation||near surface properties||P steel||continuous annealing||texture||hydrogen embrittlement||hot-stamping||warm rolling||strain-rate sensitivity||austenite reversion||D&||forging||high-manganese steels||grain refinement||double soaking
Physical Metallurgy of High Manganese Steels
English[eng]
n/a||TRIP||microstructure||medium-manganese steel||dislocation density||V alloying||ultrafine grains||intercritical annealing||medium manganese steel||fracture||precipitations||twinning induced plasticity||deformation behavior||fatigue||austenite-reversed-transformation||medium-manganese||Lüders band||medium-Mn steel||fatigue behavior||alloy design||austenitic high nitrogen steel (HNS)||high-entropy alloys||mechanical properties||retained austenite||high-manganese steel||localized deformation||phase transformation||austenite stability||processing||strain-hardening behavior||TWIP steel||recrystallization annealing||damage||strengthening||cold rolling||ultrafine-grained microstructure||serrated flow||multiscale simulation||deformation twinning||annealing||high-Mn steels||corrosion resistance||TWIP||quenching and partitioning||high manganese steel||lightweight||residual stresses||in-situ DIC tensile tests||crash box||deep rolling||high strength steel||plastic deformation||MMn steel X20CrNiMnVN18-5-10||neutron diffraction||phase field simulation||dynamic strain aging||cold deformation||near surface properties||P steel||continuous annealing||texture||hydrogen embrittlement||hot-stamping||warm rolling||strain-rate sensitivity||austenite reversion||D&||forging||high-manganese steels||grain refinement||double soaking