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magnesium oxide cements (RMC) and Engineered Magnesia Composites (EMC) as part of a broader effort to create sustainable and high-performance construction materials. Building on recent insights
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candidate will work on advancing the development and characterization of reactive magnesium oxide cements (RMC) and Engineered Magnesia Composites (EMC) as part of a broader effort to create sustainable and
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characterization, structural design, and precast applications. Structural 3D printing (metals, concrete, and composites) at multiple scales. Soil-structure interaction and resilient foundation systems. Small-scale
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-mineralization. To synthesize the findings to formulate and assess the performance of self-sensing and self-healing cementitious composites. The candidate will work in a multidisciplinary environment consisting of
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structures. Particular areas of interest include: UHPC mix development, material characterization, structural design, and precast applications. Structural 3D printing (metals, concrete, and composites
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cementitious materials through chemical and/or bio-mineralization. To synthesize the findings to formulate and assess the performance of self-sensing and self-healing cementitious composites. The candidate will
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(metals, concrete, and composites) computational mechanics and structural topology optimization vision-based structural health monitoring autonomous and drone-based infrastructure inspection and vibration