Md Abdul Based | Hybrid Reinforced composites | Best Researcher Award

Published on by Fiber-Reinforced Polymer

Mr. Md Abdul Based | Hybrid Reinforced composites | Best Researcher Award 

Mr. Md Abdul Based | Rangpur Textile Engineering College, Rangpur | Bangladesh

Md. Abdul Based is a dedicated researcher in materials science and textiles with a strong academic and technical background in polymers, composites, and fiber-based materials. His research focuses on developing functional and sustainable hybrid composite materials integrating natural and synthetic fibers, highlighted by his publication “Extraction of banana fiber and characterization analysis of a hybrid (banana, jute, carbon, and glass) reinforced composite material” in Results in Materials. Professionally, he has served as an Assistant Merchandiser (Technical & Sales) at Wymsun Textile Co., Ltd., where he managed materials sourcing, quality assurance, and production logistics, and as an intern at Ha-Meem Group, gaining hands-on experience in production and materials testing. His research interests span composites, nanomaterials, technical textiles, biomaterials, and polymer sciences. Technically proficient in SEM, TEM, XRD, DSC, and universal testing instruments, he is well-versed in ASTM, AATCC, and ISO standards. He has also completed several specialized online certifications in materials science, nanotechnology, and engineering mechanics from leading global universities. Known for his analytical ability, problem-solving mindset, and quick learning, he aims to contribute significantly to the advancement of sustainable materials and next-generation textile technologies through continued research and innovation.

Profile: ORCID

Featured Publications

Based, M. A. (n.d.). Extraction of banana fiber and characterization analysis of a hybrid (banana, jute, carbon and glass) reinforced composite material.

Zeynal Abidin OĞUZ | Composite Materials Science | Best Researcher Award

Published on by Fiber-Reinforced Polymer

Assoc. Prof. Dr. Zeynal Abidin OĞUZ | Composite Materials Science | Best Researcher Award

Associate Professor | Adıyaman University | Turkey

Assoc. Prof. Dr. Zeynal Abidin Oğuz is an accomplished academic and researcher specializing in mechanical engineering and composite materials. He earned his bachelor’s degree in Mechanical Engineering from Gaziantep University in 2013, followed by a master’s degree in 2016 with a thesis on the effects of sewage sludge ash on the mechanical properties of composites. In 2021, he completed his PhD in Mechanical Engineering at Gaziantep University, focusing on hydrothermal aging effects on hybrid composites. His academic career includes roles as Assistant Professor and later Associate Professor at Adıyaman UnComposite Materials Scienceiversity, where he currently serves in the Department of Electronics and Automation, Mechatronics Program. In addition, he has held administrative responsibilities, including Head of the Department of Mechanical Engineering at Adıyaman University. His research primarily investigates hydrothermal and UV aging impacts on the mechanical performance of fiber-reinforced and nanoparticle-reinforced composites, with numerous articles published in leading international journals such as Polymer Composites, Journal of Composite Materials, Marine Structures, and Physica Scripta. He has supervised postgraduate theses and led national research projects supported by higher education institutions. Beyond academia, he gained professional engineering experience at the State Hydraulic Works (DSİ) in Bingöl and Adıyaman, overseeing dam, pond, and pumping station projects. With a consistent record of publications, conference presentations, and collaborative projects, Oğuz has established himself as a recognized scholar contributing to advancements in composite material behavior under environmental aging conditions. His expertise combines theoretical knowledge, experimental investigation, and applied engineering, bridging the gap between scientific research and industrial applications.

Profile:   ORCID  |  Google Scholar

Featured Publications

Oğuz, Z. A., & Erklig, A. (2022). Hydrothermal aging effect on the tensile properties of hybrid aramid/glass/epoxy composites: Comparison of distilled water and seawater. Journal of Composite Materials, 56(24), 3695–3714.

Oğuz, Z. A., Erklig, A. (2022). Evaluation of the hydrothermal aging effect on the buckling behavior of hybrid glass/aramid/epoxy composite plates: Comparison of distilled water and seawater. Polymer Composites, 43(7), 4463–4477.

Oğuz, Z. A., Erklig, A., & Bozkurt, Ö. Y. (2021). Degradation of hybrid aramid/glass/epoxy composites hydrothermally aged in distilled water. Journal of Composite Materials, 55(15), 2043–2060.

Oğuz, Z. A., Erklig, A., & Bozkurt, Ö. Y. (2021). Effects of hydrothermal seawater aging on the mechanical properties and water absorption of glass/aramid/epoxy hybrid composites. International Polymer Processing, 36(1), 79–93.

Oğuz, Z. A., & Erklig, A. (2021). Water absorption parameters of glass/epoxy composites based on dimension effect. International Advanced Researches and Engineering Journal, 5(2), 202–208.

Oğuz, Z. A., & Erklig, A. (2021). The influence of dimension effect on the hydrothermal aging behavior of aramid/epoxy composites. Çukurova University Journal of the Faculty of Engineering, 36(1), 187–195.

Oğuz, Z. A., Özbek, Ö., Bozkurt, Ö. Y., & Erklig, A. (2023). Hydrothermal aging effect on crushing characteristics of intraply hybrid composite pipes. Engineering Structures, 297, 117011.