Journal
INTERNATIONAL JOURNAL OF PLASTICITY
Volume 146, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijplas.2021.103107
Keywords
Metallic glass; High-temperature deformation; Free volume theory; Rheological behavior
Funding
- NSFC [51971178]
- Natural Science Basic Research Plan for Distinguished Young Scholars in Shaanxi Province [2021JC-12]
- MICINN [PID2020112975GB-I00]
- Generalitat de Catalunya [2017SGR0042]
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The high-temperature rheological behavior of a Zr48Cu34Ag8Al8Pd2 metallic glass was explored through strain rate jump experiments, showing a strong dependence on temperature and strain rate. The plastic deformation behavior and apparent viscosity can be interpreted within the framework of the free volume model. Stress overshoot is a characteristic feature, determined by the time of change from non-equilibrium to equilibrium defect concentrations, highlighting the influence of physical aging and stress relaxation on the high-temperature deformation process of metallic glasses.
The high-temperature rheological behavior, around the glass transition temperature, of a Zr48Cu34Ag8Al8Pd2 metallic glass was investigated by strain rate jump experiments. The results show that the plastic deformation behavior and apparent viscosity strongly depend on temperature and strain rate. The high temperature rheology can be interpreted within the framework of the free volume model. The relative defect concentration deduced from the free volume model depends on temperature and strain rate and it explains the evolution of apparent viscosity within testing conditions, which is inversely correlated with the defect concentration. The stress overshoot is found to be a characteristic feature of the high-temperature rheological behavior. The origin of the stress overshoot is analyzed based on the physical meaning of the parameters in the free volume model. The results demonstrate that the strength of the stress overshoot is determined by the time of change from non-equilibrium to equilibrium defect concentrations. This study highlights the link between the stress overshoot phenomenon and the initial structural state, examining the influence of physical aging and stress relaxation on the high-temperature deformation process of metallic glasses.
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