Assitant Professor at Kermanshah University of Technology, Iran
Dr. Rezgar Hasanzadeh is an Assistant Professor at Kermanshah University of Technology, with a background in Mechanical Engineering from Urmia University. His research focuses on polymers, polymeric foams, and plastic waste management. 🎓🌍
Dr. Hasanzadeh earned his B.Sc., M.Sc., and Ph.D. from Urmia University, graduating with top honors and receiving several prestigious awards, including the Distinguished Researcher of West Azerbaijan Province and Shahid Chamran Award from Iran’s National Elites Foundation. 🏅🌟
Publication Profile :
Scopus
🎓 Educational Background :
- B.Sc. in Mechanical Engineering
Urmia University (2009-2013) – GPA: 16.38/20
- M.Sc. in Mechanical Engineering
Urmia University (2013-2015) – GPA: 18.86/20
- Ph.D. in Mechanical Engineering
Urmia University (2015-2019) – GPA: 19.76/20
Thesis: Effect of Structural Properties on the Thermal-Insulation Properties of Polymeric Hybrid Nanocomposite Foams
👨🏫 Professional Experience :
- Assistant Professor
Kermanshah University of Technology (2024–Ongoing)
- Lecturer
Urmia University (2017–2024)
- Teaching Fellow
Urmia University, Professor Taher Azdast (2015–2024)
- Lecturer
Technical and Vocational University, Urmia Branch (2016–2023)
🔬 Research Interests :
- Polymers & Polymeric Foams
- Plastic Waste Treatment & Management ♻️
- Gasification Process 🌱
- Thermal-Insulation Polymeric Foams
- Polymeric Nanocomposites
- 3D & 4D Printing 🖨️
- Injection Molding/Extrusion Process
- Plastic Processing & Technology
- Multi-Objective Optimization
📝 Publication Top Notes :
- Hasanzadeh, R., & Mojaver, P. (Eds.). (2023). Plastic Waste Treatment and Management: Gasification Processes. Springer Nature.
- Hasanzadeh, R., Doniavi, A., & Rosen, M.A. (2023). Multi-criteria Decision-Making Analysis of Plastic Waste Gasification. In R. Hasanzadeh & P. Mojaver (Eds.), Plastic Waste Treatment and Management (Engineering Materials). Springer, Cham. https://doi.org/10.1007/978-3-031-31160-4_8
- Hasanzadeh, R., & Azdast, T. (2023). Evaluation of Steam Polyurethane Foam Waste Gasification. In R. Hasanzadeh & P. Mojaver (Eds.), Plastic Waste Treatment and Management (Engineering Materials). Springer, Cham. https://doi.org/10.1007/978-3-031-31160-4_7
- Hasanzadeh, R., Azdast, T., & Park, C.B. (2023). Evaluation of Air Polyurethane Foam Waste Gasification. In R. Hasanzadeh & P. Mojaver (Eds.), Plastic Waste Treatment and Management (Engineering Materials). Springer, Cham. https://doi.org/10.1007/978-3-031-31160-4_6
- Gharibi, A.R., Babazade, R., & Hasanzadeh, R. (2023). Collected Plastic Waste Forecasting by 2050. In R. Hasanzadeh & P. Mojaver (Eds.), Plastic Waste Treatment and Management (Engineering Materials). Springer, Cham. https://doi.org/10.1007/978-3-031-31160-4_2
- Azdast, T., Hasanzadeh, R., Lee, R.E., Lee, P.C., Wang, G., & Park, C.B. (2023). High-Pressure Foam Injection Molding of Polylactide/Nano-Fibril Composites with Mold Opening. In Polymeric Foams (pp. 129-139). CRC Press.
- Azdast, T., & Hasanzadeh, R. (2018). Polymeric Microcellular Foams: Principles, Basics and Properties. Urmia University Press.
- Gharibi, A., Doniavi, E., & Hasanzadeh, R. (2024). Metaheuristic particle swarm optimization for enhancing energetic and exergetic performances of hydrogen energy production from plastic waste gasification. Energy Conversion and Management, 308, 118392. [8 citations]
- Aghaiee, S., Azdast, T., Hasanzadeh, R., & Farhangpazhouh, F. (2024). Fabrication of bone tissue engineering scaffolds with a hierarchical structure using combination of 3D printing/gas foaming techniques. Journal of Applied Polymer Science, 141(16), e55238. [1 citation]
- Gharibi, A., Babazadeh, R., & Hasanzadeh, R. (2024). Machine learning and multi-criteria decision analysis for polyethylene air-gasification considering energy and environmental aspects. Process Safety and Environmental Protection, 183, 46–58. [8 citations]
- Khaleghi, S., Azdast, T., Doniavi, A., & Hasanzadeh, R. (2024). Performance optimization of acrylonitrile butadiene styrene/thermoplastic polyurethane composite foams blown with carbon dioxide using Taguchi technique. Journal of Applied Polymer Science, 141(8), e54996. [1 citation]
- Mojaver, M., Azdast, T., & Hasanzadeh, R. (2024). An experimental and numerical study on an innovative metastructure for 3D printed thermoplastic polyurethane with auxetic performance. Polymers for Advanced Technologies, 35(2), e6298. [0 citations]
- Doniavi, E., Babazadeh, R., & Hasanzadeh, R. (2024). Polyethylene gasification for sustainable plastic waste management with respect to energy, exergy, and environmental considerations: A non-linear programming optimization. Process Safety and Environmental Protection, 182, 86–97. [7 citations]
- Mojaver, P., Hasanzadeh, R., Chitsaz, A., Azdast, T., & Mojaver, M. (2024). Tri-objective central composite design optimization of co-gasification of eucalyptus biomass and polypropylene waste. Biomass Conversion and Biorefinery, 14(4), 4829–4841. [12 citations]
- Khaleghi, S., Azdast, T., Hasanzadeh, R., Park, C.B., & Rasouli, A. (2024). Tuning cellular structure in a previously developed microcellular acrylonitrile butadiene styrene/thermoplastic polyurethane blend foams. Polymer Engineering and Science. [0 citations; Article in Press]
- Azerang, B., Azdast, T., Doniavi, A., & Hasanzadeh, R. (2024). Acrylonitrile butadiene styrene/multi-walled carbon nanotubes nanocomposite foams for electromagnetic interference shielding with optimized performance. Journal of Thermoplastic Composite Materials. [0 citations; Article in Press]
- Hasanzadeh, R., Mihankhah, P., Azdast, T., Bodaghi, M., & Moradi, M. (2024). Process-property relationship in polylactic acid composites reinforced by iron microparticles and 3D printed by fused filament fabrication. Polymer Engineering and Science, 64(1), 399–411. [9 citations]