MS theses and PhD dissertations in the research group
Jesse Harold Hilario (2023), Enhancing the reactivity and strength of fly ash-calcium sulfoaluminate cement using gypsum modifier, MS Thesis, Korea Advanced Institute of Science and Technology. Available via the link
Meseret Hailu Tadesse (2023), Evaluation of cracking potential of roller compacted concrete dam, MS Thesis, Korea Advanced Institute of Science and Technology. Available via the link
Arham Taseer (2023), A rheological model using the Lagrangian finite element approach to study the flow of fresh concrete, MS Thesis, Korea Advanced Institute of Science and Technology. Available via the link
Tae Yong Shin (2023), Rheological modeling and flow simulation to evaluate the filling ability of fresh concrete, PhD Dissertation, Korea Advanced Institute of Science and Technology. Available via the link
Seong Ho Han (2022), Development of the aqueous CO2 curing and treatment for cement-based materials using CO2 solvent, PhD Dissertation, Korea Advanced Institute of Science and Technology. Available via the link
Jin Hyun Lee (2022), Matric suction of raw materials and its effect on the fresh-state properties of cement-based materials toward 3D printing application, PhD Dissertation, Korea Advanced Institute of Science and Technology. Available via the link
Yekaterina Shestakova (2022), Application of machine learning algorithms to the simplification of the performance evaluation process of cement dispersants, MS Thesis, Korea Advanced Institute of Science and Technology. Available via the link
Tae Hoon Han (2022), Chloride-attack fragility curve of reinforced concrete considering the variation of concrete’s diffusivity, MS thesis, Korea Advanced Institute of Science and Technology. Available via the link
Byoung Il Choi (2019), Formulation of rheological model of cement suspension considering the thixotropy and shear thinning phenomenon, MS Thesis, Korea Advanced Institute of Science and Technology. Available via the link
Hye Rim Jang (2014), Optimized Protocol to Measure the Flow Curve of Cement Paste and Its Verification with Gravity-Induced Flow Simulation, MS Thesis, Ulsan National Institute of Science and Technology. Available via the link