One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing atoms from the glass matrix, free volume is homogeneously generated in metallic glasses, and glassy states with different degrees of rejuvenation are designed and further mechanically tested. We find that the free volume in the rejuvenated glasses can be annihilated under tensile or compressive deformation that consequently leads to structural relaxation and strain-hardening. Additionally, the deformation mechanism of highly rejuvenated metallic glasses during the uniaxial loading–unloading tensile tests is investigated, in order to provide a systematic understanding of the relaxation and strain-hardening relationship. The observed strain-har...
Metallic glasses (MGs) are formed by the deep undercooling of high-temperature melt up to the glass ...
Structural rejuvenation is an effective measure to optimize the mechanical properties of metallic gl...
© 2016 Macmillan Publishers Limited, part of Springer Nature. For crystalline metals, the science, t...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
Abstract Residual stress engineering is widely used in the design of new advanced lightweight materi...
High-temperature deformation has been demonstrated as an effective measure to rejuvenate and optimiz...
Strain-hardening (the increase of flow stress with plastic strain) is the most important phenomenon ...
Structural rejuvenation is an effective measure to optimize the mechanical properties of metallic gl...
Structural rejuvenation is an effective measure to optimize the mechanical properties of metallic gl...
In this study, the structure changes and related mechanical properties of the Zr61Ti2Cu25Al12 metall...
Metallic glasses (MGs) are formed by the deep undercooling of high-temperature melt up to the glass ...
Structural rejuvenation is an effective measure to optimize the mechanical properties of metallic gl...
© 2016 Macmillan Publishers Limited, part of Springer Nature. For crystalline metals, the science, t...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
One way to rejuvenate metallic glasses is to increase their free volume. Here, by randomly removing ...
Abstract Residual stress engineering is widely used in the design of new advanced lightweight materi...
High-temperature deformation has been demonstrated as an effective measure to rejuvenate and optimiz...
Strain-hardening (the increase of flow stress with plastic strain) is the most important phenomenon ...
Structural rejuvenation is an effective measure to optimize the mechanical properties of metallic gl...
Structural rejuvenation is an effective measure to optimize the mechanical properties of metallic gl...
In this study, the structure changes and related mechanical properties of the Zr61Ti2Cu25Al12 metall...
Metallic glasses (MGs) are formed by the deep undercooling of high-temperature melt up to the glass ...
Structural rejuvenation is an effective measure to optimize the mechanical properties of metallic gl...
© 2016 Macmillan Publishers Limited, part of Springer Nature. For crystalline metals, the science, t...