Chemical core-shell metastability-induced large ductility in medium-entropy maraging and reversion alloys
Maraging structural materials have been traditionally indicated as essential metallic alloys
for hundreds of years. The highest strength of the aged martensite alloys requires the …
for hundreds of years. The highest strength of the aged martensite alloys requires the …
A sustainable ultra-high strength Fe18Mn3Ti maraging steel through controlled solute segregation and α-Mn nanoprecipitation
The enormous magnitude of 2 billion tons of alloys produced per year demands a change in
design philosophy to make materials environmentally, economically, and socially more …
design philosophy to make materials environmentally, economically, and socially more …
Cu-assisted austenite reversion and enhanced TRIP effect in maraging stainless steels
Control of the formation and stability of reverted austenite is critical in achieving a favorable
combination of strength, ductility, and toughness in high-strength steels. In this work, the …
combination of strength, ductility, and toughness in high-strength steels. In this work, the …
Simultaneous effects of deformation-induced plasticity and precipitation hardening in metastable non-equiatomic FeNiCoMnTiSi ferrous medium-entropy alloy at room …
In the present work, the mechanical properties of a newly developed metastable 65Fe-15Ni-
8Co-8Mn-3Ti-Si (at%) ferrous medium-entropy alloy were investigated at 298 K and 77 K …
8Co-8Mn-3Ti-Si (at%) ferrous medium-entropy alloy were investigated at 298 K and 77 K …
Martensitic transformation induced strength-ductility synergy in additively manufactured maraging 250 steel by thermal history engineering
Maraging steels are known for their exceptional strength but suffer from limited work
hardening and ductility. Here, we report an intermittent printing strategy to tailor the …
hardening and ductility. Here, we report an intermittent printing strategy to tailor the …
[HTML][HTML] Effect of aging temperature on the austenite reversion and mechanical properties of a Fe–10Cr–10Ni cryogenic maraging steel
H Zhang, X Ji, D Ma, M Tong, T Wang, B Xu… - Journal of Materials …, 2021 - Elsevier
Abstract Fe–10Cr–10Ni cryogenic maraging steel is one of the key candidate materials
applied in harsh cryogenic condition due to its high strength and good cryogenic toughness …
applied in harsh cryogenic condition due to its high strength and good cryogenic toughness …
Effect of ageing on the microstructural evolution in a new design of maraging steels with carbon
A new maraging steel, based on carbide precipitation, is described. Two alloys were
designed namely Fe-10Mn-0.25 C-2Cr-1Mo wt%(2CrMo) and Fe-10Mn-0.25 C-1Cr-2Mo …
designed namely Fe-10Mn-0.25 C-2Cr-1Mo wt%(2CrMo) and Fe-10Mn-0.25 C-1Cr-2Mo …
Effect of aging temperature on the heterogeneous microstructure and mechanical properties of a 12Cr–10Ni–Mo–Ti maraging steel for cryogenic applications
H Zhang, M Sun, D Ma, B Xu, T Wang, D Li… - Journal of Materials …, 2021 - Springer
The evolution of heterogeneous microstructure and mechanical properties of a 12Cr–10Ni–
Mo–Ti maraging steel was investigated at different aging temperatures. As the aging …
Mo–Ti maraging steel was investigated at different aging temperatures. As the aging …
Introducing Heusler intermetallics for synergic effect of grain refinement and precipitation strengthening in high-strength low-alloy steels
The remarkable combination of strength, toughness, and weldability that characterizes high-
strength low-alloy (HSLA) steels make them suitable structural materials for naval and …
strength low-alloy (HSLA) steels make them suitable structural materials for naval and …
Development of the high-strength ductile ferritic alloys via regulating the intragranular and grain boundary precipitation of G-phase
A typical G-phase strengthened ferritic model alloy (1Ti: Fe-20Cr-3Ni-1Ti-3Si, wt.%) has
been carefully studied using both advanced experimental (EBSD, TEM and APT) and …
been carefully studied using both advanced experimental (EBSD, TEM and APT) and …