The quartz α↔β phase transition: Does it facilitate damage and reaction in continental crust?
Publication Name: Earth and Planetary Science Letters
Publication URL: https://doi.org/10.1016/j.epsl.2020.116622
The phase transition in quartz is accompanied by relatively large, anisotropic changes in cell volume and elastic stiffness properties. Because quartz is among the most abundant minerals in Earth’s continental crust, these changes have the potential to profoundly influence the state of stress, mechanical properties, metamorphism, and rheology of crustal rocks. Laboratory experiments confirm strongly enhanced microcracking as rocks cross the transition. In addition, limited seismological studies suggest that the transition may cause extensive microcracking in the crust. However, the micromechanical basis for potential transition-induced damage has not been quantitatively explored. Here we use numerical methods to show that elastic stresses arising from the transition can greatly exceed the brittle tensile and shear strengths of common crustal rocks and minerals at various confining pressures. In particular, we show that contraction during the down-temperature transition is far more effective than expansion during the up-temperature transition at promoting possible brittle failure and/or recrystallization (damage). Our results suggest that the transition may play an important role in damaging the continental crust, particularly in rock volumes that experience geologically rapid changes in temperature or pressure. In these environments, the transition may weaken rocks, establish transient permeability, facilitate advective mass transport and metamorphic reactions, and potentially nucleate earthquakes.
Johnson, S., Song, W., Cook, A., Vel, S., & Gerbi, C. (2020). The quartz α↔β phase transition: Does it facilitate damage and reaction in continental crust? Earth and Planetary Science Letters, 553, 116622. https://doi.org/10.1016/j.epsl.2020.116622