Dr. Dan Cox
Oregon State University
Professor of Civil Engineering
Publications
- Tomiczek, T, A Wyman, H Park, DT Cox (2019) Modified Goda Equations to Predict Pressure Distribution and Horizontal Forces for Design of Elevated Coastal Structures. Waterway Port Coastal and Ocean Engineering (accepted).Tomiczek, T, A Wyman, H Park, DT Cox (2019) Modified Goda Equations to Predict Pressure Distribution and Horizontal Forces for Design of Elevated Coastal Structures, J. Waterway Port Coastal and Ocean Engineering 145, 6, DOI: 10.1061/(ASCE)WW.1943-5460.0000527.
- Do, T, JW van de Lindt, DT Cox (2019) Hurricane Surge-Wave Building Fragility Methodology for Use in Damage, Loss, and Resilience Analysis, J. Structural Engineering 146(1), 04019177, DOI: 10.1061/(ASCE)ST.1943-541X.0002472.
- Park, H., Do, T., Tomiczek, T., Cox, D.T., van de Lindt, J.W. (2018) Numerical Modeling of Non-breaking, Impulsive Breaking, and Broken Wave Interaction with Elevated Coastal Structures: Laboratory Validation and Inter-Model Comparisons. Ocean Engineering, 158, 15, 78-98. DOI: 10.1016/j.oceaneng.2018.03.088.
- Tomiczek, T., Park, H., Cox, D.T., van de Lindt, J.W., Lomonaco, P. (2017) Experimental Modeling of Horizontal and Vertical Wave Forces on an Elevated Coastal Structure. Coastal Engineering, 128, 58-74. DOI: 10.1016/j.coastaleng.2017.08.001.
- Do, Trung, van de Lindt, J., Cox, D.T. (2016) Performance-Based Design Methodology for Inundated Elevated Coastal Structures Subjected to Wave Load Engineering Structures. Engineering Structures, 117, 250 – 262. DOI: 10.1016/j.engstruct.2016.02.046.
Conference Papers, Presentations, Theses
- Benjamin Hunter. Exceedance Probabilities of Hurricane Wave Forces on Elevated Structures. (2016). MS Thesis, Oregon State University.
- Duncan, S. Physical Modeling of Progressive Damage and Failure of Wood Framed Coastal Residential Structures Due to Waves and Surge Forces, (2020), MS Thesis, Oregon State University.
- Lomonaco, P., P. Arduino, A. Barbosa, D. Cox, T. Do, M. Eberhard, M. Motley, K. Shekhar, T. Tomiczek, H. Park, J. W. van de Lindt, A. Winter (2018) Experimental Modeling of Wave Forces and Hydrodynamics on Elevated Coastal Structures Subject to Waves, Surge or Tsunamis: The Effect of Breaking, Shielding and Debris. International Conference on Coastal Engineering, ASCE.
- Park, H., Do, T., Tomiczek, T., Cox, D., van de Lindt, J.W. (2018) Laboratory Validation and Inter-Model Comparisons of Non-breaking, Impulsive Breaking, and Broken Wave Interaction with Elevated Coastal Structures using IHFOAM and FLUENT. International Conference on Coastal Engineering, ASCE.
- Do, T, JW van de Lindt W, DT Cox (2018) Physics-Based Component Fragility Model for Near-Coast Residential Wood Building Subjected to Hurricane Wave and Surge. Engineering Mechanics Institute Conference 2018, Cambridge MA.
- Tomiczek, T., Wyman, A., Park, H., Cox, D.T. (2018) Application and modification of Goda Formulae for Non-impulsive Wave Forces on Elevated Coastal Structures. International Conference on Coastal Engineering, ASCE.
- Tomiczek, T., Park, H., Cox, D.T., Lomonaco, P., van de Lindt, J.W. (2018) Application and modification of Design Formulae for Impulsive Wave Forces on Elevated Coastal Structures. International Conference on the Application of Physical Modelling in Coastal and Port Engineering and Science (Coastlab18), IAHR.
- Do, T., Tomiczek, T., van de Lindt, J. Cox, D. (2017) Development of Physics-Based Building Fragility Surfaces for Near-Coast Community Modeling. International Conference on Coastal and Ocean Engineering, Osaka, Japan.
- Jason Burke. Design and Structural Testing of a 1:6 Scaled, Light-frame Construction, Near-coastal, Residential Structure. (2018). MS Thesis, Oregon State University.
- Matt Karny. Hydrodynamic Testing on a 1:6 Scale, Wood Framed Near-Coast Residential Structure. (2018). MS Thesis, Oregon State University.
- William Short. A laboratory study of horizontal and vertical regular wave forces on an elevated structure. (2016). MS Thesis, Oregon State University.