Abstract
Abstract
Localized deformation during high temperature plastic flow is frequently attributed to mechanical weakening caused by grain size reduction and, in some cases, by the development of a crystallographic preferred orientation (CPO). This study aims to investigate experimentally the contribution of CPO development to the strain weakening seen in Carrara marble samples during large strain torsion experiments at temperatures in the range 600–800 °C at constant strain rate and confining pressure. The starting material shows little or no CPO. Samples were treated in three steps. First, they were deformed to achieve a well-developed CPO and recrystallized to a finer grain size. Second, the samples were annealed at 727 °C for 5 h to grow the grains to approximately their original size and shape while maintaining a reasonably strong CPO. Finally, the samples were deformed again, under the same conditions as the first step. Re-deformed samples showed a strain weakening lower than during the first step. We infer that this strength difference is caused primarily by the CPO developed during the first deformation event. This implies that CPO development is an important process that contributes to strain weakening during flow of Carrara marble and likely of other rock types as well.
Localized deformation during high temperature plastic flow is frequently attributed to mechanical weakening caused by grain size reduction and, in some cases, by the development of a crystallographic preferred orientation (CPO). This study aims to investigate experimentally the contribution of CPO development to the strain weakening seen in Carrara marble samples during large strain torsion experiments at temperatures in the range 600–800 °C at constant strain rate and confining pressure. The starting material shows little or no CPO. Samples were treated in three steps. First, they were deformed to achieve a well-developed CPO and recrystallized to a finer grain size. Second, the samples were annealed at 727 °C for 5 h to grow the grains to approximately their original size and shape while maintaining a reasonably strong CPO. Finally, the samples were deformed again, under the same conditions as the first step. Re-deformed samples showed a strain weakening lower than during the first step. We infer that this strength difference is caused primarily by the CPO developed during the first deformation event. This implies that CPO development is an important process that contributes to strain weakening during flow of Carrara marble and likely of other rock types as well.
| Original language | English |
|---|---|
| Pages (from-to) | 44-57 |
| Number of pages | 14 |
| Journal | Journal of Structural Geology |
| Volume | 68 |
| Issue number | PART A |
| DOIs | |
| Publication status | Published - Nov 2014 |
Keywords
- CPO
- Strain weakening
- Annealing
- Carrara marble
- Torsion experiments