所報 107

12/46

）mm（ecafrusecnatsiDrof1) Influence of UFC Panel with Different Synthetic Surface Shape in UFC/RC Column on Axial Compressive Load-Carrying Capacity and Failure Modes of Column Members, Cement Science and Concrete Technology, Vol.75, pp.294-301. 2022.2) Effect of crack opening and closing width on fatigue durability of filling concrete with protruding rebars in panel joints of replacement precast RC slabs, Journal of Structural Engineering. A, Vol.68A, pp.711-721. 2022.3) Load-Carrying Capacity of Adhesive-Applied NSM Increasing Thickness Method Using Metal-Grid Expanded Type on Damaged RC Columns, Cement Science and Concrete Technology, Vol.75, pp.340-347. 2022.4) Experimental study on Axial Compression Properties of RC column Members Reinforced with Thickness Increase Method using Expanded Grid-Metal, Proceedings of the Japan Concrete Institute, Vol.43, No.2, pp.799-804. 2021.5) Study on axial compressive load-carrying capacity of composite column using UFC panels with different shapes of synthetic surface, Proceedings of the Japan Concrete Institute, Vol.43, No.2, pp.751-756. 2021.PIC. 2 Wheel-running fatigue test unitKazuhiko Minakuchi is a professor at the Department of Civil Engineering, College of Industrial Technology, Nihon University. He received his PhD from Nihon University in 2003 and worked as a postdoctoral researcher at the High-Technology Research Center, College of Industrial Technology, Nihon University from 2005 to 2007. He specializes in the study of structural engineering, bridge engineering, and maintenance management engineering, having authored a number of technical papers. Dr. Minakuchi is a member of the Japan Society of Civil Engineering (JSCE) and the Japan Concrete Institute (JCI). His main research themes are: (1) Evaluation of load carrying capacity and fatigue resistance of RC slabs for highway bridges; (2) Research on maintenance management methods for concrete members; and (3) Diagnosis of deterioration of RC members subjected to salt and frost damage.Fig. Result of salt percolation for EPMA plane analysisCldensity(%)aggregateaggregateexclusion－　　－10Research AchievementsKazuhiko MINAKUCHIProfessor, Department of Civil Engineering