Faculty of Science and Engineering
Department of Textile Engineering
M.Sc. in Textile Engineering, Dhaka University of Engineering & Technology (DUET), Gazipur.
B.Sc. in Textile Engineering, Khulna University of Engineering & Technology (KUET), Khulna.
Md. Ashnaim Bari is a dedicated academic and researcher with over six years of experience in higher education. Since September 2019, he has served as a Lecturer in the Department of Textile Engineering at City University, Bangladesh, where he also completed a one-year tenure as Departmental Program Coordinator. Mr. Bari holds a B.Sc. in Textile Engineering from KUET, specializing in Yarn Manufacturing, where he twice received the Dean’s Award for academic excellence. He furthered his expertise with an M.Sc. from DUET, during which he contributed to a University Grants Commission (UGC) project as a Research Assistant. At City University, he teaches technical subjects such as Yarn Manufacturing, Textile Testing, Machine Maintenance, and Technical Textiles. His research is deeply rooted in textile sustainability and material science, focusing on fiber-based composites with enhanced mechanical and thermal properties, wastewater treatment, textile recycling, and Life Cycle Assessment (LCA). Through his instruction and active research, Mr. Bari continues to contribute significantly to the advancement of textile engineering and environmental sustainability.
Lecturer, Department of Textile Engineering, City University (September 2019 - Continue)
1. Fiber-based composite materials
2. Textile waste and wastewater management and recycling processes
3. Life Cycle Assessment (LCA) of textile products and processes
4. Bioplastics from textile fiber and agricultural waste
1. Bari, A. (2022). Dyeing of Cotton Fabric using Malabar Spinach (Basella alba) Leaves Aqueous Extract. International Journal of Innovative Science and Research Technology, 7(2), 656-659.
2. Bhuiyan, M. R., Akter, H., Islam, S., Darda, M. A., & Bari, M. A. (2024). Jute-reinforced hybrid biocomposite incorporated with low thermal conductive silica aerogel for improved resistance to conductive and radiative heat. Industrial Crops and Products, 222, 119773.
3. Bhuiyan, M. R., Bari, M. A., & Darda, M. A. (2025). Thermal barrier performance of natural fiber-reinforced biocomposite panels with the reflective surface for conserving heat energy in buildings. Energy Conversion and Management: X, 26, 100926.
4. Darda, M. A., Bhuiyan, M. R., Bari, M. A., Islam, S., & Hossen, M. J. (2025). Mechanically
robust and thermally insulating natural cotton fiber-reinforced biocomposite panels for structural applications. RSC advances, 15(12), 9534-9545.
5. Md. Ashnaim Bari, Md. Abu Darda, Dr. Muhammad Abdur Rahman Bhuiyan, Lijing Wang; Heat Resistant Properties of Fiber-Reinforced Composite Panels with Absorptive and Reflective Surface for
Structural Applications; ICMMPE 2026 (Conference Proceedings)
6. Md. Abu Darda, Md. Ashnaim Bari, M Monjural Islam Pranto, M A Rahman Bhuiyan, Ayub Nabi Khan; Fabrication of Garment Cutting Waste Reinforced Waste Polypropylene Composite for Structural Application; ICMMPE 2026 (Conference Proceedings)