Editor Profile

Engr. Minhas Shah, MS
Associate Lecturer
Present
Department of Civil Engineering, Capital University of Science and Technology (CUST)
Islamabad
Pakistan

Engr. Minhas Shah is a researcher in the field of structural and construction materials, with a strong focus on sustainability and innovation. His expertise covers supplementary cementitious materials, natural fibres, lightweight concrete blocks, and ultra-high-performance concrete (UHPC). He has actively contributed to advancing eco-friendly alternatives in construction by exploring novel materials and techniques that reduce environmental impact while enhancing performance.
He is currently serving as an Associate Lecturer in the Department of Civil Engineering at Capital University of Science and Technology (CUST), Islamabad, Pakistan. In addition to his academic role, he has been a member of the editorial board of MDPI journals, where he contributes to the dissemination of high-quality research in civil and structural engineering. His ongoing work continues to promote sustainable solutions for the future of the construction industry.
- Supplementary Cementitious Materials
- Natural Fibers
- Light Weight Concrete Blocks
- Ultra-High Performance Concrete
- Shah M & Ali M. A Study on Mechanical Properties of Environmentally friendly Concrete Incorporating Banana Fiber and Banana Leaf Ash. Engineering Proceedings, 2023; 53(1), 56. https://doi.org/10.3390/IOCBD2023-16867
- Shah M & Ali M. Fresh Properties of Concrete having Banana Leaf Ash and Banana Fibres. Sustainable Structures and Materials, An International Journal, 2023; 6(1), 88-95.
- Abrar H & Shah M. An Overview of Sustainable Repair Strategies for Potholes in Flexible Pavements During Rehabilitation Phase. 4th Conference on Sustainability in Civil Engineering: CSCE (Vol. 22, 2022; pp. 368-373).
- Shah M, Farooqi U, Ali M. Use of admixtures in improving bonded asphalt overlay on concrete pavements. International Civil Engineering Conference 11 Pakistan. 2020.
- Aziz A & Shah M. A Review on the Usage of Modern Techniques to Overcome the Issues in Rapid Setting Concrete for Extreme Temperature Zones. 2022.