Current state of Fe-Mn-Al-C low density steels
Abstract Fe-Mn-Al-C steels, previously developed in the 1950s for replacing Fe-Cr-Ni steels,
are currently generating a lot of interest with potential applications for structural parts in the …
are currently generating a lot of interest with potential applications for structural parts in the …
Physical metallurgy of medium-Mn advanced high-strength steels
Steels with medium manganese (Mn) content (3∼ 12 wt-%) have emerged as a new alloy
class and received considerable attention during the last decade. The microstructure and …
class and received considerable attention during the last decade. The microstructure and …
Prevention of hydrogen embrittlement in steels
HKDH Bhadeshia - ISIJ international, 2016 - jstage.jst.go.jp
The essential facts about the nature of the hydrogen embrittlement of steels have now been
known for 140 years. It is diffusible hydrogen that is harmful to the toughness of iron. It …
known for 140 years. It is diffusible hydrogen that is harmful to the toughness of iron. It …
Overview of hydrogen embrittlement in high-Mn steels
Hydrogen and fuels derived from it will serve as the energy carriers of the future. The
associated rapidly growing demand for hydrogen energy-related infrastructure materials has …
associated rapidly growing demand for hydrogen energy-related infrastructure materials has …
On the origin of dynamic strain aging in twinning-induced plasticity steels
Room temperature dynamic strain aging (DSA) is often observed from the beginning of
plastic deformation in high Mn Fe–18% Mn–0.6% C and Fe–22% Mn–0.6% C twinning …
plastic deformation in high Mn Fe–18% Mn–0.6% C and Fe–22% Mn–0.6% C twinning …
The effects of Si on the mechanical twinning and strain hardening of Fe–18Mn–0.6 C twinning-induced plasticity steel
K Jeong, JE Jin, YS Jung, S Kang, YK Lee - Acta Materialia, 2013 - Elsevier
The stacking-fault energy (SFE), dislocation slip, mechanical twinning, strain hardening, and
yield and tensile strengths were systemically investigated in Fe–18Mn–0.6 C–1.5 Si …
yield and tensile strengths were systemically investigated in Fe–18Mn–0.6 C–1.5 Si …
Stacking fault energy and deformation mechanisms in Fe-xMn-0.6 C-yAl TWIP steel
JK Kim, BC De Cooman - Materials Science and Engineering: A, 2016 - Elsevier
The deformation mechanisms and mechanical properties of Fe-Mn-C-Al twinning-induced
plasticity (TWIP) steels with a chemical composition range of 12–18 wt% Mn and 0–3 wt …
plasticity (TWIP) steels with a chemical composition range of 12–18 wt% Mn and 0–3 wt …
Hydrogen-assisted failure in a twinning-induced plasticity steel studied under in situ hydrogen charging by electron channeling contrast imaging
We investigated the hydrogen embrittlement of a Fe–18Mn–1.2% C (wt.%) twinning-induced
plasticity steel, focusing on the influence of deformation twins on hydrogen-assisted …
plasticity steel, focusing on the influence of deformation twins on hydrogen-assisted …
Effect of hydrogen in advanced high strength steel materials
SK Dwivedi, M Vishwakarma - international journal of hydrogen energy, 2019 - Elsevier
The effect of hydrogen in AHSS material (automobile and structural component) was
discussed. Dual Phase steels were highly susceptible to hydrogen-related failure when …
discussed. Dual Phase steels were highly susceptible to hydrogen-related failure when …
On deformation behavior of Fe-Mn based structural alloys
This article is a literature review of recent advances in novel Fe-Mn based alloys, drawing
specific examples on Hadfield and TWIP steels, and high entropy and shape memory alloys …
specific examples on Hadfield and TWIP steels, and high entropy and shape memory alloys …