Reza Salehiyan
reza salehiyan

Dr Reza Salehiyan

  

Biography

Dr. Salehiyan is a lecturer in Advanced Materials group at the School of Computing, Engineering and Built Environment. His research and teaching areas are in polymer and plastic processing, manufacturing and analysis.
He completed his Ph.D. in chemical engineering in early 2016 from Pusan National University, South Korea. His Ph.D. was sponsored by the BK21-Plus program in South Korea. His research thesis was focused on fundamental understanding of morphology development in nanoparticles-filled immiscible polymer blends using non-linear rheology. He exclusively employed the Fourier Transform (FT-rheology) technique to analyze the morphological evolution of the compatibilized and un-compatibilized blends. Later, in June 2016 he joined Council for Scientific and Industrial Research (CSIR), Pretoria, South Africa as a postdoctoral fellow. He extensively worked on the structure-properties relationships of polymer blends and their composites. In addition to investigations as an independent researcher, he also studied the effect of nanoparticles on electrical conductivity, rheological and morphological properties of polymer composites as a member of research team. In the frame of these researches some critical aspects in formulations and product developments such as particles size and geometry, processing conditions and polymers compatibility were considered.
Further, in 2021 he joined the International Institute for for Nanocomposites Manufacturing (IINM) at the University of Warwick as a research fellow. During the fellowship he was involved in projects for development of composites of polyolefine(s) with graphene. Moreover, on a different project, studied the recyclability/re-processability of polyolefine-based compounds as well.
In a nutshell, his research interests includes but not limited to the polymer nanocomposites, blends, sustainable polymers and plastics, recycled polymers and polymer processing.

School

Research Areas

Esteem

Editorial Activity

  • Early Career Editorial Board member of 鈥淎dvanced Nanocomposites鈥
  • Editorial Board for section 'Polymer Composites' in the "Journal of Composites Science"
  • Guest Editor of a special issue in "Polymers "
  • Guest Editor of Special Issue in "Materials"

 

Fellowships and Awards

  • Junior Research Associate

 

Reviewing

  • Peer Review for Scientific Reports
  • Peer Review for the journal of Composites Communications
  • Peer Review for the journal of Materials Advances
  • Peer Review for the journal of "Critical Reviews in Environmental Science and Technology"
  • Peer Review for the journal of Materials Research
  • Peer Review of the journal of ACS Sustainable Resource Management
  • Peer Review for the journal of Case Studies in Chemical and Environmental Engineering
  • Peer Review for the journal of ACS Applied Polymer Materials
  • Peer Review for Journal of Materials Research and Technology
  • Peer Review for the International Journal of Biological Macromolecules
  • Peer Review for the journal of Polymer Bulletin
  • Peer Review for the journal of ACS applied electronic materials
  • Peer Review for the Journal of Polymers and Environment
  • Peer Review for Materials
  • Peer Review for the journal of ACS Applied Materials & Interfaces
  • Peer Review for ACS Macromolecules
  • Peer Review for Polymers
  • Peer Review for the journal of Polymer Testing
  • Peer Review for the Journal of Thermoplastic Composite Materials

 

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Date


45 results

Enhancing Polylactic Acid Properties by Blending With Recycled Polycarbonate: The Effect of a Bio鈥怋ased Compatibilizer on Properties

Journal Article
Dehghani, S., Salehiyan, R., Pholharn, D., Worajittiphon, P., & Srithep, Y. (online)
Enhancing Polylactic Acid Properties by Blending With Recycled Polycarbonate: The Effect of a Bio鈥怋ased Compatibilizer on Properties. Journal of Applied Polymer Science, https://doi.org/10.1002/app.57197
This study explores enhancing polylactic acid (PLA) by blending it with recycled polycarbonate (r-PC) to improve its brittleness and thermal limitations. Recycled r-PC, obtain...

Re-evaluating Bioplastic Blend Wastes through Mechanical Recycling and Chemical Modification

Journal Article
Eil Bakhtiari, S. S., Shyha, I., Sun, D., Nofar, M., & Salehiyan, R. (online)
Re-evaluating Bioplastic Blend Wastes through Mechanical Recycling and Chemical Modification. Advanced Industrial and Engineering Polymer Research, https://doi.org/10.1016/j.aiepr.2025.03.001
The escalating environmental challenges posed by conventional plastics have amplified the importance of biodegradable polymers as sustainable alternatives. However, addressing...

Upcycling Alum Sludge as a Reinforcement in PBAT Composites: A Sustainable Approach to Waste Valorisation

Journal Article
Sun, D., Henthorn, T., Popescu, C.-M., & Salehiyan, R. (2025)
Upcycling Alum Sludge as a Reinforcement in PBAT Composites: A Sustainable Approach to Waste Valorisation. Applied Sciences, 15(5), Article 2591. https://doi.org/10.3390/app15052591
This study explores the valorisation of alum sludge, a byproduct of water treatment processes, as a sustainable reinforcement material in Poly(butylene adipate-co-terephthalat...

Mechanical and thermal properties of polylactic acid blended with recycled polymethyl methacrylate

Journal Article
Dehghani, S., Salehiyan, R., Pholharn, D., & Srithep, Y. (online)
Mechanical and thermal properties of polylactic acid blended with recycled polymethyl methacrylate. Polymer Engineering and Science, https://doi.org/10.1002/pen.27141
This study investigates the effect of incorporating recycled polymethyl methacrylate (r-PMMA) into polylactic acid (PLA) and further modifications with a bio-based compatibili...

Enhanced re鈥恜rocessability of poly (butylene adipate鈥恈o鈥恡erephthalate) ( PBAT ) via chain extension toward a more sustainable end鈥恛f鈥恖ife

Journal Article
Salehiyan, R., Kim, M. C., Xia, T., Jin, S., Nofar, M., Chalmers, L., & Hyun, K. (2025)
Enhanced re鈥恜rocessability of poly (butylene adipate鈥恈o鈥恡erephthalate) ( PBAT ) via chain extension toward a more sustainable end鈥恛f鈥恖ife. Polymer Engineering and Science, 65(3), 1187-1199. https://doi.org/10.1002/pen.27067
Poly (butylene adipate-co-terephthalate) (PBAT) is a biodegradable polymer recognized for its potential to reduce plastic waste due to its biodegradability and compostability....

Mechanical recycling of polyamide 6 and polypropylene for automotive applications

Journal Article
Dehghani, S., Salehiyan, R., & Srithep, Y. (2025)
Mechanical recycling of polyamide 6 and polypropylene for automotive applications. Polymer Engineering and Science, 65(1), 250-257. https://doi.org/10.1002/pen.27006
This study investigates the mechanical recycling of polyamide 6 (PA6) from discarded fishing nets and polypropylene (PP) from automotive battery scraps and household waste for...

Bioplastic Based Multifunctional Conductive Blend Nanocomposites

Book Chapter
Salehiyan, R., & Soleymani Eil Bakhtiari, S. (2024)
Bioplastic Based Multifunctional Conductive Blend Nanocomposites. In Reference Module in Materials Science and Materials Engineering. Elsevier. https://doi.org/10.1016/b978-0-323-95486-0.00064-8
Bio-based plastics have become popular among researchers and industries due to their potential contributions towards a more sustainable environment. Up to date, there have bee...

Effective and Fast-Screening Route to Evaluate Dynamic Elastomer-Filler Network Reversibility for Sustainable Rubber Composite Design

Journal Article
Xia, T., Wemyss, A. M., Salehiyan, R., Heeley, E. L., Hu, X., Tang, F., 鈥an, C. (2023)
Effective and Fast-Screening Route to Evaluate Dynamic Elastomer-Filler Network Reversibility for Sustainable Rubber Composite Design. ACS sustainable chemistry & engineering, 11, 17857-17869. https://doi.org/10.1021/acssuschemeng.3c06752
The introduction of self-healing and reprocessability into conventional vulcanized rubbers has been recognized as a promising strategy to promote elastomer circularity. Howeve...

Large amplitude oscillatory shear flow: Microstructural assessment of polymeric systems

Journal Article
Kamkar, M., Salehiyan, R., Goudoulas, T. B., Abbasi, M., Saengow, C., Erfanian, E., Sadeghi, S., Natale, G., Rogers, S. A., Jeffrey Giacomin, A., & Sundararaj, U. (2022)
Large amplitude oscillatory shear flow: Microstructural assessment of polymeric systems. Progress in Polymer Science, 132, Article 101580. https://doi.org/10.1016/j.progpolymsci.2022.101580
Since the first publications of large amplitude oscillatory shear (LAOS) responses of polymeric materials in the 1960s, different approaches have been developed to express, an...

Poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) (PHBH): Synthesis, properties, and applications - A review

Journal Article
Eraslan, K., Aversa, C., Nofar, M., Barletta, M., Gisario, A., Salehiyan, R., & Goksu, Y. A. (2022)
Poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) (PHBH): Synthesis, properties, and applications - A review. European Polymer Journal, 167, Article 111044. https://doi.org/10.1016/j.eurpolymj.2022.111044
The development of biobased and environmental-friendly polymeric materials to replace petroleum-based plastics is one of the main global challenges nowadays. Among biopolymers...

Current Post Grad projects

Non-Napier PhD or MSc by Research supervisions

  • External PhD co-supervison