Nanoprecipitate‐strengthened high‐entropy alloys
L Liu, Y Zhang, J Han, X Wang, W Jiang… - Advanced …, 2021 - Wiley Online Library
Multicomponent high‐entropy alloys (HEAs) can be tuned to a simple phase with some
unique alloy characteristics. HEAs with body‐centered‐cubic (BCC) or hexagonal‐close …
unique alloy characteristics. HEAs with body‐centered‐cubic (BCC) or hexagonal‐close …
[HTML][HTML] Progress on improving strength-toughness of ultra-high strength martensitic steels for aerospace applications: a review
J Li, D Zhan, Z Jiang, H Zhang, Y Yang… - Journal of Materials …, 2023 - Elsevier
Ultra-high strength steels are the crucial irreplaceable materials in the fields of aerospace,
national defense and military industries. Unfortunately, it is challenging to achieve the …
national defense and military industries. Unfortunately, it is challenging to achieve the …
Strengthening mechanisms in high entropy alloys: A review
High entropy alloys (HEAs) is a new generation of alloys with multi-component systems and
emerged as a potential candidate for the industrial applications due to their excellent …
emerged as a potential candidate for the industrial applications due to their excellent …
Periodic spinodal decomposition in double–strengthened medium–entropy alloy
Achieving an optimal balance between strength and ductility in advanced engineering
materials has long been a challenge for researchers. In the field of material strengthening …
materials has long been a challenge for researchers. In the field of material strengthening …
Break the strength-ductility trade-off in a transformation-induced plasticity high-entropy alloy reinforced with precipitation strengthening
D Huang, Y Zhuang - Journal of Materials Science & Technology, 2022 - Elsevier
Transformation-induced plasticity (TRIP) endows material with continuous work hardening
ability, which is considered as a powerful weapon to break the strength-ductility tradeoff …
ability, which is considered as a powerful weapon to break the strength-ductility tradeoff …
High-temperature creep property deterioration of the alumina-forming austenitic steel: effect of σ phase
The microstructural evolution of the alumina-forming austenitic (AFA) steel subjected to
different cold rolling reductions during creep test at 973 K and 120 MPa was investigated by …
different cold rolling reductions during creep test at 973 K and 120 MPa was investigated by …
[HTML][HTML] Nanoscale precipitation, mechanical properties, and deformation behavior of NiAl-strengthened high-strength steels: Effects of Ni and Al contents and ratios
Abstract Effects of Ni and Al contents and ratios on the continuous and discontinuous
precipitation, mechanical properties, and deformation behavior of NiAl-strengthened steels …
precipitation, mechanical properties, and deformation behavior of NiAl-strengthened steels …
The co-precipitation evolution of NiAl and Cu nanoparticles and its influence on strengthening and toughening mechanisms in low-carbon ultra-high strength …
X Yang, X Di, J Wang, C Fang, W Fu, L Ba… - International Journal of …, 2023 - Elsevier
The designed low-carbon ultra-high strength martensite seamless tube steel was
manufactured by hot rolling and quenching-tempering processes. The multiple …
manufactured by hot rolling and quenching-tempering processes. The multiple …
Fe-based high-entropy alloy with excellent mechanical properties enabled by nanosized precipitates and heterogeneous grain distribution
High-entropy alloys (HEAs) consisting of CoCrFeNiAlTi systems, with a face-centered cubic
(FCC) matrix reinforced by ordered L1 2 precipitates, have demonstrated exceptional …
(FCC) matrix reinforced by ordered L1 2 precipitates, have demonstrated exceptional …
Nanoscale Cu particle evolution and its impact on the mechanical properties and strengthening mechanism in precipitation-hardening stainless steel
Copper-rich precipitation can effectively strengthen stainless steel; however, the underlying
mechanism is still unclear due to an insufficient understanding of the transformation of Cu …
mechanism is still unclear due to an insufficient understanding of the transformation of Cu …