Young Kim
Assoc Professor
Young Hoon Kim, Ph.D., PE is an associate professor at the J. B. Speed School of Engineering at the University of Louisville. He received his Ph.D. in Civil Engineering from Texas A&M University in 2008. After completing his Ph.D., he was a post-doctoral research associate at the Texas Transportation Institute. He was a post-doctoral scholar in the School of Civil and Construction Engineering at Oregon State University for two years. His recent research includes concrete design and the assessment of structural performance. Also, he has served as an editorial board member of ASTM International - the Journal of Testing and Evaluation.
Education
- B.E. in Civil and Environmental Engr, Korea University, 2000
- M.S. in Civil and Environmental Engr, Korea University, 2003
- Ph.D. in Civil Engineering, Texas A&M University, 2008
Publications
Journal Articles
- Ramezani, M., Kim, Y., H. & Sun, Z. (2020). Probabilistic Model for Flexural Strength of Cementitious Materials Reinforced with Carbon Nanotube. Composite Structures, 253, 112748
- Zeng, J., . & Kim, Y., H. (2021). Stiffness Modification-Based Bayesian Finite Element Model Updating to Solve Coupling Effect of Structural Parameters: Formulations. APPLIED SCIENCES-BASEL, 11(22)
- Ramezani, M., Kim, Y., H. & Sun, Z. (2021). Elastic modulus formulation of cementitious materials incorporating carbon nanotubes: Probabilistic approach. CONSTRUCTION AND BUILDING MATERIALS, 274
- Yoo, D., Banthia, N., Fujikake, K., Kim, Y., H. & Gupta, R. (2018). Editorial: Fiber-Reinforced Cement Composites: Mechanical Properties and Structural Implications. Advances in Materials Science and Engineering, 2018, 2
- Kim, Y., H., Park, Y. & Bai, J. (2017). Probabilistic Shear Capacity Models for Concrete Members with Internal Composite Reinforcements. ASCE Journal of Composites for Construction, 21(2)
- Connor, A., B. & Kim, Y., H. (2016). Shear-Transfer Mechanisms for Glass Fiber-Reinforced Polymer Reinforcing Bars. ACI Structural Journal, 113(6), 1369-1380
- Kim, Y., Kim, J., M., Kim, Y., H., Chong, J. & Park, H., S. (2016). System identification of smart buildings under ambient excitations. Measurement, 87, 294-302
- Park, Y., Abolmaali, A., Kim, Y., H. & Ghahremannejad, M. (2016). Compressive strength of fly ash-based geopolymer concrete with crumb rubber partially replacing sand. Construction and Building Materials, 118, 43-51
- Kim, Y., H., Hueste, M., B. & Trejo, D. (2015). Flexural Behavior of High Early Strength Self-Consolidating Concrete Pretensioned Bridge Girders. ASCE Journal of Bridge Engineering, 20(2)
- Kim, Y., H. & Trejo, D. (2015). Large Diameter Shear Connector Systems for Full-Depth Precast Overhang Panels: Evaluation and Design. ACI Structural Journal, 112(4), 439-450
- Kim, Y., Kim, Y., H. & Lee, S. (2015). Multivariable Nonlinear Identification of Smart Structures. Mechanical Systems and Signal Processing, 62, 254-271
- Kim, Y., H. & Trejo, D. (2014). The Shear Transfer Mechanism and Design of Shear Connectors for Full-Depth Precast Deck Panel System. ACI Structural Journal, 111(4), 935-944
- Park, Y., Kim, Y., H. & Lee, S. (2014). Long-term Flexural Behaviors of GFRP Reinforced Concrete Beams Exposed to Accelerated Aging Exposure Conditions. Polymers, 6, 1773-1793
- Gardoni, P., Trejo, D. & Kim, Y. (2013). Time-Variant Strength Capacity Model for GFRP Bars Embedded in Concrete. Journal of Engineering Mechanics, 139(10), 1435-1445
- Kim, Y., H. (2013). Closure/ Disc. 109-S65 ACI Structural Journal, p. 755. Bond Performance in Self-Consolidating Concrete Pretensioned Bridge Girders. (Paper by Young Hoon Kim, David Trejo, and Mary Beth D. Hueste). Discussion by José R. Martí-Vargas.. ACI Structural ournal, 110(5), 878-881
- Kim, Y., H., David, T. & Paolo, G. (2012). Time-variant Capacity and Reliability of GFRP-Reinforced Bridge Decks. ASCE Journal of Composite for Construction, 16(4), 359-370
- Kim, Y., H., David, T., Atahan, H., N. & Mary Beth, H., D. (2012). Mechanical Property Prediction For High Early Strength Self-Consolidating Concrete. ASCE Journal of Materials in Civil Engineering, 24(12), 1501-1512
- Kim, Y., H., Trejo, D. & Hueste, M., D. (2012). Bond performance in self-consolidating concrete pretensioned bridge girders. ACI Structural Journal, 109(6), 755-765
- Kim, Y., H., Trejo, D., Hueste, M., D. & Kim, J., J. (2011). Experimental Study on Creep and Durability of High Early Strength Self-Consolidating Concrete for Precast Elements. ACI Materials Journal, 108(2), 128-138
- Kim, Y., H., Hueste, M., D., Trejo, D. & Cline, D., B. (2010). Shear Characteristics and Design for High-Strength Self-Consolidating Concrete. ASCE Journal of Structural Engineering, 136(8), 989-1000
- Kim, Y., H., Trejo, D. & Hueste, M., B. (2010). Characterization of High Early Strength Self-Consolidating Concrete for Design of Pretensioned Bridge Elements. Transportation Research Record: Journal of the Transportation Research Board, No.2200, 135-142
- Kim, Y., H., Lee, J., H. & Yoon, Y. (2006). Repeated Loading Tests of Shear-Critical Reinforced Concrete Beams with Headed Shear Reinforcement. Korea Concrete Institute Journal, 18(1), 47-56
- Rice, J., Kim, Y., H., Sun, Z. & Mohsen, J., P. (2020). Evaluation of Light Reflectiveness of Modern Pavement: Standard Tungsten Incandescent and LED. Journal of Transportation Engineering Part B: Pavements, 146
Books
- Paz, M. & Kim, Y., H. (2018). STRUCTURAL DYNAMICS: Theory and Computation Sixth Edition. : Springer
More about Young Kim
- ASCE ExCEEd Teaching Fellows, 2012, ASCE
2022
Spring
- CEE 421 - CONCRETE DESIGN
- CEE 625 - STRUCTURAL DYNAMICS
Summer
- CEE 524 - BRIDGE DESIGN
Fall
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 621 - FEM IN STRUCT ENGRG
2021
Spring
- CEE 421 - CONCRETE DESIGN
- CEE 625 - STRUCTURAL DYNAMICS
Summer
- CEE 590 - CURRENT TOPICS IN CEE
Fall
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 621 - FEM IN STRUCT ENGRG
2020
Fall
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 621 - FEM IN STRUCT ENGRG
Summer
- CEE 590 - CURRENT TOPICS IN CEE
- CEE 590 - CURRENT TOPICS IN CEE
Spring
- CEE 421 - CONCRETE DESIGN
- CEE 625 - STRUCTURAL DYNAMICS
2019
Fall
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 621 - FEM IN STRUCT ENGRG
Summer
- CEE 590 - CURRENT TOPICS IN CEE
- CEE 590 - CURRENT TOPICS IN CEE
Spring
- CEE 421 - CONCRETE DESIGN
- CEE 625 - STRUCTURAL DYNAMICS
2018
Fall
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 621 - FEM IN STRUCT ENGRG
Summer
- CEE 590 - CURRENT TOPICS IN CEE
- CEE 590 - CURRENT TOPICS IN CEE
Spring
- CEE 421 - CONCRETE DESIGN
- CEE 522 - FUND PRESTRESS CONCRETE
2017
Spring
- CEE 421 - CONCRETE DESIGN
- CEE 621 - FEM IN STRUCT ENGRG
Summer
- CEE 590 - CURRENT TOPICS IN CEE
Fall
- CEE 621 - FEM IN STRUCT ENGRG
- CEE 625 - STRUCTURAL DYNAMICS
2016
Summer
- CEE 205 - MECHANICS I: STATICS
Spring
- CEE 421 - CONCRETE DESIGN
- CEE 522 - FUND PRESTRESS CONCRETE
Fall
- CEE 625 - STRUCTURAL DYNAMICS
2015
Summer
- CEE 205 - MECHANICS I: STATICS
Spring
- CEE 421 - CONCRETE DESIGN
- CEE 522 - FUND PRESTRESS CONCRETE
Fall
- CEE 621 - FEM IN STRUCT ENGRG
- CEE 625 - STRUCTURAL DYNAMICS
2014
Spring
- CEE 421 - CONCRETE DESIGN
- CEE 522 - FUND PRESTRESS CONCRETE
- CEE 697 - M ENG THESIS IN CE
Fall
- CEE 621 - FEM IN STRUCT ENGRG
- CEE 625 - STRUCTURAL DYNAMICS
2013
Summer
- CEE 205 - MECHANICS I: STATICS
Fall
- CEE 621 - FEM IN STRUCT ENGRG
- CEE 625 - STRUCTURAL DYNAMICS