Add to ORKGThis in vestigation is aimed to understand crack initiation resistance and mechanism of cracking in a high entropy alloy, Al23Co15Cr23Cu8Fe15Ni15 (at%). The fracture toughness of the alloy consisting of primarily Fe–Cr rich disordered and Al–Ni richordered BCC phases is found to be 5.4 +/- 0.2 MPa m1/2. Lower magnitude of fracture toughness has been at tributed to nanosized microstructural constituents, in which cracking is governed by formation of shear bands, cleavage facets and herringbone type features
A single-phase face-centered-cubic (FCC) high- or medium-entropy alloys (HEAs or MEAs) have attracte...
Compositionally complex alloys, or high entropy alloys, are good candidates for applications at hig...
Representative face-centered-cubic (FCC) high-entropy alloys (HEAs) or medium-entropy alloys (MEAs),...
This study reports the effect of phase distribution on crack propagation in a dual phase AlCoCrFeNi ...
A current goal driving alloy development is the identification of alloy compositions for high temper...
The superior strength and toughness balance prevails in the face-centered-cubic-structured high/medi...
Damage tolerance can be an elusive characteristic of structural materials requiring both high streng...
Damage tolerance can be an elusive characteristic of structural materials requiring both high streng...
In this study, we investigated the effects of Cr content on the crystal structure, microstructure, a...
High-entropy alloys are an intriguing new class of metallic materials that derive their properties f...
AlCoCrFeNiTi high-entropy alloys (HEAs) have attracted much attention because of their excellent mec...
The crystal lattice type is one of the dominant factors for controlling the mechanical behavior of h...
The concept of High-Entropy Alloy (HEA) expanded the research field of advanced metallic materials f...
Compositionally complex alloys, or high entropy alloys, are good candidates for applications at high...
A metal alloy that is stronger when cold Metal alloys normally consist of one dominant element, with...
A single-phase face-centered-cubic (FCC) high- or medium-entropy alloys (HEAs or MEAs) have attracte...
Compositionally complex alloys, or high entropy alloys, are good candidates for applications at hig...
Representative face-centered-cubic (FCC) high-entropy alloys (HEAs) or medium-entropy alloys (MEAs),...
This study reports the effect of phase distribution on crack propagation in a dual phase AlCoCrFeNi ...
A current goal driving alloy development is the identification of alloy compositions for high temper...
The superior strength and toughness balance prevails in the face-centered-cubic-structured high/medi...
Damage tolerance can be an elusive characteristic of structural materials requiring both high streng...
Damage tolerance can be an elusive characteristic of structural materials requiring both high streng...
In this study, we investigated the effects of Cr content on the crystal structure, microstructure, a...
High-entropy alloys are an intriguing new class of metallic materials that derive their properties f...
AlCoCrFeNiTi high-entropy alloys (HEAs) have attracted much attention because of their excellent mec...
The crystal lattice type is one of the dominant factors for controlling the mechanical behavior of h...
The concept of High-Entropy Alloy (HEA) expanded the research field of advanced metallic materials f...
Compositionally complex alloys, or high entropy alloys, are good candidates for applications at high...
A metal alloy that is stronger when cold Metal alloys normally consist of one dominant element, with...
A single-phase face-centered-cubic (FCC) high- or medium-entropy alloys (HEAs or MEAs) have attracte...
Compositionally complex alloys, or high entropy alloys, are good candidates for applications at hig...
Representative face-centered-cubic (FCC) high-entropy alloys (HEAs) or medium-entropy alloys (MEAs),...