Habeun Choi
Education
- B.S., Department of Civil and Environmental Engineering, Yonsei University, Seoul, Republic of Korea, 2011
Employment
- Graduate Research Assistant, Department of Civil and Environmental Engineering, Yonsei University, 2011 - Present
Research Interests
- Computational Mechanics
- Fracture behavior of fiber reinforced concrete
- Mixed-mode fracture investigation using cohesive zone modeling
Journal Publications
- K. Park, H. Choi, G.H. Paulino, and R.H. Dodds Jr, 2019, Fatigue crack growth using a cohesive zone model (in preparation)
- H. Choi, H. Chi, K. Park, and G.H. Paulino, 2019, Morphogenesis: Morphologic constructions of the virtual element method (in preparation)
- H. Choi, and K. Park, 2019, Removing mesh bias in mixed-mode cohesive fracture simulation with stress recovery and domain integral, International Journal for Numerical Methods in Engineering (in press)
- K. Ha, H. Choi, M. Shin, and K. Park, 2018, On size effect of interfacial fracture between concrete and fiber reinforced polymer, Cement & Concrete Composites 93, 99-106
- K. Park, H. Choi, and G.H. Paulino, 2016, Assessment of cohesive traction-separation relationships in ABAQUS: A comparative study, Mechanics Research Communications 78, 71-78
- K. Park, K. Ha, H. Choi, and C.J. Lee, 2015, Prediction of interfacial fracture between concrete and fiber reinforced polymer (FRP) by using cohesive zone modeling, Cement & Concrete Composites 63, 122-131
- E.K. Kim, H. Choi, K. Park, and W.H. Kang, 2015, Deterministic and probabilistic investigation on multiple crack interactions in a semi-infinite domain, Mathematical Problems in Engineering 2015, 305397-1-9.
Conference Presentations
- H. Choi, and K. Park, 2017, Removing mesh bias in a cohesive surface element approach for two- and three- dimensional mixed-mode fracture analysis, 14th US National Congress on Computational Mechanics (USNCCM14), Montreal, Canada
- H. Choi, and K. Park, 2017, Nonlinear crack propagation analysis for materials with microstructure, Computational Structural Engineering Institute of Korea (COSEIK), Buyeo, Korea
- H. Choi, and K. Park, 2016, Three-dimensional nonlinear crack propagation simulation by using extrinsic cohesive zone modeling, Korean Society of Civil Engineers (KSCE) Conference, Jeju, Korea
- H. Choi, and K. Park, 2016, Crack path prediction of 3D mixed-mode fracture by using cohesive zone modeling, The 12th World Congress on Computational Mechanics (WCCM12), Seoul, Korea
- K. Park, H. Choi, and H. Baek, 2015, Prediction of mixed-mode concrete crack propagation by using cohesive zone modeling, Korean Society of Civil Engineers (KSCE) Conference, Gunsan, Korea
- H. Choi, and K. Park, 2015, Investigation on concrete crack propagation by using extrinsic cohesive zone modeling, Korea Concrete Institute (KCI) Conference - Fall, Gyeongju, Korea
- H. Choi, and K. Park, 2015, Accurate crack path representation in a cohesive surface element approach for mixed-mode fracture analysis, 13th US National Congress on Computational Mechanics (USNCCM13), San Diego, California
- H. Choi, and K. Park, 2015, Quasi-static nonlinear fracture analysis using extrinsic cohesive zone modeling, Computational Structural Engineering Institute of Korea (COSEIK), Busan, Korea
- H. Choi, and K. Park, 2014, Study on Mode II Fracture Behavior of concreteby using cohesive zone modeling, Korea Concrete Institute (KCI) Conference - Fall, Muchangpo, Korea
- H. Choi, and K. Park, 2013, Study on fatigue crack growth of a concrete beam by using a cohesive zone model, Korea Concrete Institute (KCI) Conference - Fall, Goseong, Korea
- K. Park, and H. Choi, 2013, Adaptive finite element analysis for nonlinear dynamic crack propagation, Computational Structural Engineering Institute of Korea (COSEIK), Yeosu, Korea
- H. Choi, and K. Park, 2012, Total fracture energy approximation for the cohesive failure analysis of fiber reinforced concrete (FRC), Korea Concrete Institute Conference - Fall, Muju, Korea
Hyeong Tae Kim
Education
- B.S., Department of Civil and Environmental Engineering, Yonsei University, Seoul, Republic of Korea, 2015
Employment
- Graduate Research Assistant, Department of Civil and Environmental Engineering, Yonsei University, 2015 - Present
Research Interests
- Effects of neutron irradiation on construction materials
- Reinforced concrete behaviors under radiation environments
- Fiber modeling for reinforced concrete members
Journal Publication
- K. Park, H.T. Kim, and D.J. Kim, 2019, Generalized finite element formulation of fiber beam elements for distributed plasticity in multiple regions, Computer-Aided Civil and Infrastructure Engineering 34, 146-163
- W.H. Kang, T.H. Kwon, H.T. Kim, and K. Park, 2016, Design strength evaluation of RC beams under radiation environments for nuclear power plants, Nuclear Engineering and Design 301, 101-110
- K. Park, H.T. Kim, and T.H. Kwon, 2016, Effect of neutron irradiation on response of reinforced concrete members for nuclear power plants, Nuclear Engineering and Design 310, 15-26
Conference Presentations
- H.T. Kim, and K. Park, T.H. Kwon, 2018, Response of reinforced concrete members in neutron irradiation environment, Computational Design in Engineering (CODE), Changwon, Korea
- H.T. Kim, and K. Park, T.H. Kwon, 2017, Behaviors of reinforced concrete members under neutron irradiation environment, Korea Concrete Institute (KCI) Conference - Spring, Jeju, Korea
- H.T. Kim, and K. Park, D.J. Kim, 2016, Analysis of a local plastic zone in reinforced concrete beams by using the stable generalized fiber element formulation, Korea Concrete Institute (KCI) Conference - Fall, Goseong, Korea
- H.T. Kim, and K. Park, D.J. Kim, 2016, Fiber beam elements for distributed plasticity analysis based on the generalized finite element method, 12th World Congress on Computational Mechanics (WCCM12), Seoul, Korea
- H.T. Kim, and K. Park, T.H. Kwon, 2015, Effects of neutron irradiation on reinforced concrete members, Korea Concrete Institute (KCI) Conference - Fall, Gyeongju, Korea
- T.H. Kwon, S.H. Kim, J. Park, H.T. Kim, K. Park, J. Y. Kim, 2015, Effect of neutron irradiation on beam-column interaction of reinforced concrete, Transactions of the Korean Nuclear Society Autumn Meeting, Gyungju, Korea
Diamondra Fenosoa Tiana
Education
- M.S., Department of Civil and Environmental Engineering, Yonsei University, Seoul, Republic of Korea, 2017
- B.S., Department of Civil Engineering, Higher Institute of Technology Antananarivo, Madagascar, 2013
Employment
- Graduate Research Assistant, Department of Civil and Environmental Engineering, Yonsei University, 2015 - Present
- Town Planner Assistant, Ministry of Country Planning Madagascar, 2011
Thesis
- Evaluation of Differential Drying Shrinkage of Concrete Considering the Influence of Aggregate, M.S. Thesis, 2018
Research Interests
- Reinforced concrete member behaviors
- Heat of hydration, shrinkage and creep
Conference Presentations
- R.D.F. Razakamandimby, and K. Park, 2016, Evaluation of differential drying shrinkage by solving moisture diffusion equation, Korea Concrete Institute (KCI) Conference - Fall, Goseong, Korea
Jihyuk Park
Education
- B.S., Department of Civil and Environmental Engineering, Yonsei University, Seoul, Republic of Korea, 2015
Employment
- Graduate Research Assistant, Department of Civil and Environmental Engineering, Yonsei University, 2015 - Present
Research Interests
- Experimental mechanics
- Digital image correlation
Journal Publication
Conference Presentation
- J. Park, and K. Park, 2016, Evaluating displacement field by using digital image correlation technique, Korea Concrete Institute (KCI) Conference - Fall, Goseong, Korea
- J. Park, and K. Park, 2015, Evaluating stress intensity factor by using digital image correlation technique, Korea Concrete Institute (KCI) Conference - Fall, Gyeongju, Korea
Syed Qasim Shabbir
Education
- B.S., Department of Civil and Environmental Engineering, University of Engineering and Technology, Taxila, Pakistan, 2015
Employment
- Graduate Research Assistant, Department of Civil and Environmental Engineering, Yonsei University, 2017 - Present
- Lab Engineer, Institute of Southern Punjab, Multan, Pakistan, 2016
Research Interests
- Nonlinear finite element methods
- Cohesive zone modeling