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Dr. Mohammad Hassan Meisami
Investigating the Compressive, Flexural, and Tensile Strength of UltraHigh-Performance Fiber-Reinforced Concrete (UHPFRC)
Investigation the Effect of Steel and Barchip Fibers on the Mechanical Behavior of Ultra-High Performance Fiber Reinforced Concrete
Simulating FRP debonding from concrete surface in FRP strengthened RC beams A case study
Using grooving and corner strip-batten techniques for seismic strengthening of square reinforced concrete columns with fiber-reinforced polymer composites
Retrofit of concrete columns with fibre strips using grooves and corner battens
Microencapsulated Phase-Change Materials for Sustainable Thermal and Mechanical Optimization of Lightweight Concrete
Effect of Replacing Pumice containing PEG 1000 on Compressive Strength, Flexural Strength, Heat Transfer Coefficient, and Water Absorption of Concrete
Lightweight Concrete with Improved Thermomechanical Properties Incorporating PCM-Infused Micro-Silica Additives
Sustainable PCM-Integrated Lightweight Concrete with Improved Mechanical and Thermal Performance: A Comparative Study of Impregnation and Microencapsulation
Thermal and Mechanical Properties of Concrete Incorporating Pumice Containing Form-Stable Phase Change Materials and Silica Fume
Innovative Energy-Efficient Lightweight Concrete with Improved Thermal and Mechanical Properties using PCM-Impregnated LECA Aggregates
Eccentric load behaviour of concrete columns retrofitted with engineered cementitious composite jackets via grooving method
Rectangular Reinforced Concrete Columns Strengthened with Carbon Fiber-Reinforced Polymer Sheets Using Corner Strip-Batten Method
Fiber-Reinforced Concrete wit Recycled High-Alumina Refractory Aggregates: Mechanical Performance After Exposure to Elevated Temperatures