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Our understanding of the rheological and seismic properties of the Earth’s interior relies on interpreting geophysical observations using mineral physics data. The complexity of natural materials complicates these interpretations, but here the key features of such materials in controlling the attenuation of seismic waves are determined by a set of careful experiments. This thesis clearly explains how dynamic mechanical spectroscopy has been used to determine the visco-elastic properties of igneous and sedimentary rocks containing geological fluids. These experiments highlight, for the first…mehr
Our understanding of the rheological and seismic properties of the Earth’s interior relies on interpreting geophysical observations using mineral physics data. The complexity of natural materials complicates these interpretations, but here the key features of such materials in controlling the attenuation of seismic waves are determined by a set of careful experiments. This thesis clearly explains how dynamic mechanical spectroscopy has been used to determine the visco-elastic properties of igneous and sedimentary rocks containing geological fluids. These experiments highlight, for the first time, the importance of mineral and rock microstructures as controls on geophysical properties of solids, particularly near the melting point. The results have impacts in areas ranging from volcanic processes, through the structure of the deep Earth, to fluid-saturated porous media.
Su-Ying Chien studied Earth Sciences at National Cheng Kung University, Taiwan, carrying out Masters research on the properties of silica at high pressure and temperature by ultrasonic measurements. Her Ph.D. at the University of Cambridge developed her interests into the realms of low-frequency mechanics of Earth materials, as described here.
Inhaltsangabe
Introduction.- Experimental methods.- Sample characteristics.- Thermal relaxations in gabbro and basalt.- Glass transition and brittle failure of crystal-glass silicates.- Crackling noise in basalt and gabbro.- Fluid pressure and failure modes of sandstones.- Conclusion.
Introduction.- Experimental methods.- Sample characteristics.- Thermal relaxations in gabbro and basalt.- Glass transition and brittle failure of crystal-glass silicates.- Crackling noise in basalt and gabbro.- Fluid pressure and failure modes of sandstones.- Conclusion.
Introduction.- Experimental methods.- Sample characteristics.- Thermal relaxations in gabbro and basalt.- Glass transition and brittle failure of crystal-glass silicates.- Crackling noise in basalt and gabbro.- Fluid pressure and failure modes of sandstones.- Conclusion.
Introduction.- Experimental methods.- Sample characteristics.- Thermal relaxations in gabbro and basalt.- Glass transition and brittle failure of crystal-glass silicates.- Crackling noise in basalt and gabbro.- Fluid pressure and failure modes of sandstones.- Conclusion.
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