Davood Mostofinejad, Ph.D., PE

Davood Mostofinejad, Ph.D., PE

dmostofi@iut.ac.ir
Office
Civil Engineering Dept., Isfahan University of Technology (IUT)
Phone
+98 31 33913818
Fax
+98 31 33912700
Positions
Distinguished Professor, Department of Civil Engineering
Research Interests
Application of Fiber reinforced Polymer (FRP) in Concrete and Masonry Structures
Reinforced Concrete (RC) Structures (Analysis and Design)
Repair and Rehabilitation of Damaged RC Structures
Advanced Concrete Technology
type: Journal
Title Conference / Journal Date
Flexural performance of RC beams strengthened with high-strength, high-ductility concrete (HSHDC): Effects of casting methods and surface preparation techniques CONSTRUCTION AND BUILDING MATERIALS
Time-dependent bond performance of CFRP-to-concrete joints exposed to elevated temperatures: A comparative study of EBROG and EBR techniques Composites Part C: Open Access
Experimental and RSM-based multi-objective optimization of low-carbon high-performance concrete incorporating silica fume and slag: Compressive strength, durability, environmental impact, and cost analysis Cleaner Engineering and Technology
Enhancing ductility and sustainability of calcium oxide-activated slag-based HSC using waste rubber, wire, and PET Open Ceramics
Effect of concrete properties and FRP strengthening on rebar mass loss under accelerated corrosion: Experimental investigation and empirical modeling Case Studies in Construction Materials
Predictive modeling of bond strength and failure strain in FRP-to-concrete joints considering groove classification Composites Part C: Open Access
Bond behavior of CFRP-to-pre-heated concrete joints: Comparative study of EBROG and EBR techniques Results in Engineering
Innovative precast HPC slab-steel composite floor with high-strength expansive grout shear key: A full-scale experimental evaluation under uniform stacking loading Results in Engineering
Effect of groove classes on flexurally strengthened RC beams with FRP using the EBROG method Case Studies in Construction Materials
Accuracy assessment of simple and complex bond-slip models for EBROG strengthening COMPOSITE STRUCTURES