Mr Ali Raza, Minhaj University Lahore, Pakistan
Ali Raza is a dedicated mathematician with an M.Phil in Applied Mathematics from the University of Engineering and Technology, Lahore. His research focuses on fractional calculus, fluid dynamics, and mathematical modeling. His M.Phil thesis explored magnetohydrodynamics convection fluid flow using Atangana-Baleanu fractional derivatives. As a reviewer for prestigious international journals, he has significantly contributed to the field. With numerous high-impact publications, Ali Raza continues to advance numerical solutions for complex differential equations, enhancing scientific understanding in thermal engineering and mechanics. 📚✨
Publication Profile
Scopus
Education
Ali Raza 🎓 is a dedicated mathematician with a strong academic background in applied mathematics. He earned his M.Phil in Applied Mathematics from the University of Engineering and Technology, Lahore (2019–2021) 📊, where he honed his analytical and problem-solving skills. Prior to that, he completed his B.S. (Hons) in Mathematics at the University of Gujrat, Pakistan (2013–2018) ➗, building a solid foundation in mathematical theories and applications. His passion for numbers and logical reasoning has driven him to excel in the field, contributing to advanced research and innovative solutions in mathematics. 🔢✨
Research Interests
Ali Raza 🔢 is deeply passionate about advanced mathematical concepts and their real-world applications. His research interests include Fractional Calculus 📐, where he explores complex mathematical structures, and Fluid Dynamics 🌊, focusing on the movement of liquids and gases. He is also engaged in the Numerical Solution of PDEs 🖥️, utilizing computational methods to solve complex equations. His expertise extends to Mechanics ⚙️, Mathematical Modelling 📊, and Differential Equations and Transforms 🔄, contributing to innovative problem-solving in science and engineering. Through his research, Ali aims to develop efficient mathematical techniques to tackle real-world challenges.
Work Experience
Ali Raza 🎓 has valuable teaching experience as a Lecturer of Mathematics, shaping young minds with his expertise. He began his career at the Sialkot College of Technology (2017–2018) 📐, where he taught advanced mathematical concepts and problem-solving techniques. He then joined the Punjab Group of Colleges, Zafarwal (2018–2019) 🏫, further refining his teaching methods and inspiring students with his passion for mathematics. His dedication to education, coupled with his strong analytical skills, has made a significant impact on his students. Ali continues to contribute to the academic field, fostering a love for mathematics among learners. 🔢✨
Research Focus
Ali Raza’s research primarily focuses on geopolymer concrete, sustainable construction materials, and composite materials 🏗️🌱. His work explores the mechanical, microstructural, and thermal properties of innovative cementitious materials, including fly ash, metakaolin, recycled aggregates, graphene-based composites, and nanomaterials 🔬⚙️. He has contributed to advancements in low-carbon concrete, fiber-reinforced composites, and self-compacting concrete for enhanced durability and sustainability 🌍. His studies also extend to heat transfer analysis in nanofluids and structural retrofitting with eco-friendly materials 🏢🔥. His research is instrumental in developing high-performance, environmentally friendly alternatives for modern construction technologies 🚀.
Publication Top Notes
Combined effects of elevated temperature, sulfates and chlorides on performance of fly ash and metakaolin-based recycled aggregate geopolymer concrete
Microstructural and thermal characterization of polyethylene and basalt fiber-reinforced natural zeolite-based engineered geopolymer composites
Mechanical and microstructural characteristics of fly ash-based concrete having copper-zinc oxide and graphitic carbon nitride hybrid composites
Fractional analysis for heat consumption of CuO-based hybrid nanofluid via integral transform
Mechanical and microstructural characterization of molybdenum tailings-, GGBS- and recycled aggregate based-low carbon self-compacting concrete
Material characterization of high-ductility geopolymer composites developed with industrial and construction & demolition wastes
Mechanical strength and mineralogical properties of fiber-reinforced geopolymer composites with multi-walled carbon nanotubes
Mechanical and microstructural characterization of recycled aggregate geopolymer concrete having high strength and recycled tire steel wire fibers
Performance of retrofitted eccentrically loaded GFRP-reinforced electronic waste concrete components having synthetic fibers