Browsing by Author "Zahasky, Christopher"

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    Data Repository for Effects of Fluid Flow and Fracture Aperture on Solute Exchange in Triple Porosity Carbonates: Etched Rock Core Experiments and Numerical Modeling
    (2025-01-30) Soucey, Charles E; Sutton, Collin R; Zahasky, Christopher; Yang, Weipeng; Kang, Peter K; pkkang@umn.edu; Kang, Peter K; Kang Research Lab
    The data contained in this repository is related to the results and figures shown in the manuscript "Effects of Fluid Flow and Fracture Aperture on Solute Exchange in Triple Porosity Carbonates: Etched Rock Core Experiments and Numerical Modeling." The data encompasses multiple different data types and covers all of the major experiments used in the manuscript, including PET scan data extracted from core flooding experiments in our etched rock cores, COMSOL numerical model files, image data from digital photographs and HSV thresholding of cores, and breakthrough curve data with model files for MFIT curve fitting. The files included here are the necessary files for replicating the primary results outlined in the paper. This data is now released for the purpose of allowing open access to data and information for the purpose of replicating our results in future studies.
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    Garnet: The Effect of Composition and Zoning On Crystal Shape
    (2009-04-08) Zahasky, Christopher
    Garnets are commonly found in metamorphic rocks. Garnets (X3Y2Si3O12) can have a variety of chemical compositions even within a single crystal. The composition of garnets can change during growth, this is known as zoning. Garnets crystallize in a number of different shapes including rhombic dodecahedron and trapezoidal. Rhombic dodecahedron is the more common shape for pyrope (Mg), almandine (Fe), and spessartine (Mn) garnets while trapezoidal is more commonly the shape of grossular (Ca) garnets. The substitutions of Ca, Mg, Fe, and Mn in the X site and its effects on certain characteristics of the garnets, specifically the shape, is the focus this research.
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    The Role of Fabric and Shear Inversion on the Development of Fractures in Shear Zones
    (2010-04-21) Zahasky, Christopher
    In this study we perform a number of shear experiments in clay in an attempt to reproduce and understand fracture patterns observed in a rock outcrop in northern Minnesota. A cake of clay is subjected to shear by movement in opposite senses of two plates on which the clay rests. The rate of displacement of the plates is held constant in each experiment. We examine the effects of anisotropy of the clay, shear-sense inversion, and rotation associated with shear, as possible mechanisms responsible for the fracture orientations that do not agree with those predicted by Coulomb theory.