Welcome! I'm Mohammad Jaberizadeh
Postdoctoral Research Associate, Center for Advanced Construction Materials (CACM) — The University of Texas at Arlington
Passionate about the design and optimization of nano-reinforced and low-carbon cementitious composites. My work focuses on rheology, durability, microstructure engineering, and next-generation concrete technologies.
Research Areas
Advanced cementitious composites
Design, testing, and optimization of high-performance mortars and concretes for infrastructure applications, balancing strength, toughness, and long-term durability.
Fiber-reinforced concrete & shrinkage control
Use of fibrillar cellulose fibers and other reinforcements to control autogenous shrinkage and improve cracking resistance and energy absorption.
Durability, curing & service-life performance
Carbonation curing, permeability control, and durability evaluation (shrinkage, chloride ingress, freeze–thaw, carbonation) guided by ASTM/ACI/AASHTO procedures.
Concrete rheology & placement behavior
Fresh-state characterization of self-consolidating concrete (SCC) including flowability, thixotropy, setting behavior, and placement optimization.
Recent Publications
Highly resilient fiber reinforced concrete using fibrillar cellulose-based byproducts
Transforming Construction: Advances in Fiber Reinforced Concrete (BEFIB 2024, RILEM-fib Symposium) — Springer Nature • 2024
Cementitious composites using cellulose fibers: effects on autogenous shrinkage, strength and energy absorption capacity
Construction and Building Materials • 2023
Comparison of plate test and electrical resistance methods for determining setting time and thixotropy of self-consolidating concrete
Journal of Testing and Evaluation • 2020
Mechanical characteristics of pervious concrete considering gradation and size of coarse aggregates
Research Journal of Environmental and Earth Sciences • 2014