Add to ORKGMasterThis study shows a novel transformation-induced plasticity mechanism, i.e., a martensitic transformation from FCC phase to BCC phase, in high-entropy alloys (HEAs). We newly design a VCrFeCoNi HEA system in consideration of phase stability between BCC and FCC phases by thermodynamic calculations. The resultantly formed BCC martensite favorably contributes to the transformation-induced plasticity, thereby leading to a significant enhancement in strength as well as strain hardening. We reveal the microstructural evolution and phase stability varied with the Ni-Fe balance and their contributions to a mechanical response. The Ni-Fe balance plays a leading role in phase stability and consequently tunes the cryogenic-temperature strength-du...
Face-centered cubic (fcc)-phase high-entropy alloys (HEAs) have attracted much academic interest, wi...
Strength and ductility are the most fundamental mechanical properties of structural materials. Most ...
A novel non-equiatomic FeCoNiAlTiMo ferrous medium-entropy alloy (MEA) with ultra-high tensile stren...
We introduce a novel transformation-induced plasticity mechanism, i.e., a martensitic transformation...
MasterA new metastable high-entropy alloy (HEA) system was suggested by thermodynamic calculations b...
A new metastable high-entropy alloy (HEA) system was suggested by thermodynamic calculations based o...
We present a new class of metastable high-entropy alloys (HEAs), triggering deformation-induced mart...
The metastable high- and medium entropy alloys (HEAs or MEAs) have drawn many attentions regarding d...
Abstract: Metastability-engineering strategy is an important topic for high entropy alloys (HEAs), o...
Metastability-engineering strategy is an important topic for high entropy alloys (HEAs), owing to th...
The existing deformation-induced martensitic transformation mostly focuses on overcoming the trade-o...
DoctorWith recent advances in the aerospace, marine shipbuilding, and natural gas industries, the de...
A single-phase face-centered-cubic (FCC) high- or medium-entropy alloys (HEAs or MEAs) have attracte...
Systematic investigation of microstructure characterization and mechanical property was performed on...
A single-phase face-centered-cubic (FCC) high- or medium-entropy alloys (HEAs or MEAs) have attracte...
Face-centered cubic (fcc)-phase high-entropy alloys (HEAs) have attracted much academic interest, wi...
Strength and ductility are the most fundamental mechanical properties of structural materials. Most ...
A novel non-equiatomic FeCoNiAlTiMo ferrous medium-entropy alloy (MEA) with ultra-high tensile stren...
We introduce a novel transformation-induced plasticity mechanism, i.e., a martensitic transformation...
MasterA new metastable high-entropy alloy (HEA) system was suggested by thermodynamic calculations b...
A new metastable high-entropy alloy (HEA) system was suggested by thermodynamic calculations based o...
We present a new class of metastable high-entropy alloys (HEAs), triggering deformation-induced mart...
The metastable high- and medium entropy alloys (HEAs or MEAs) have drawn many attentions regarding d...
Abstract: Metastability-engineering strategy is an important topic for high entropy alloys (HEAs), o...
Metastability-engineering strategy is an important topic for high entropy alloys (HEAs), owing to th...
The existing deformation-induced martensitic transformation mostly focuses on overcoming the trade-o...
DoctorWith recent advances in the aerospace, marine shipbuilding, and natural gas industries, the de...
A single-phase face-centered-cubic (FCC) high- or medium-entropy alloys (HEAs or MEAs) have attracte...
Systematic investigation of microstructure characterization and mechanical property was performed on...
A single-phase face-centered-cubic (FCC) high- or medium-entropy alloys (HEAs or MEAs) have attracte...
Face-centered cubic (fcc)-phase high-entropy alloys (HEAs) have attracted much academic interest, wi...
Strength and ductility are the most fundamental mechanical properties of structural materials. Most ...
A novel non-equiatomic FeCoNiAlTiMo ferrous medium-entropy alloy (MEA) with ultra-high tensile stren...