Nasruddin | Composite Materials Science | Editorial Board Member

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Dr. Nasruddin | Composite Materials Science | Editorial Board Member

Dr. Nasruddin | National Research and Innovation Agency | Indonesia

Dr. Nasruddin, ST., M.Si is a Principal Researcher at the National Research and Innovation Agency (BRIN), Indonesia, known for his deep expertise in functional rubber and industrial material innovation. He holds both a Master’s and Doctoral degree in Agro-Industry from Sriwijaya University and has built a distinguished career focused on advancing natural rubber composites, solid tire technologies, rubber–asphalt additives, elastomer modification, and green filler development. His extensive scientific contributions span a wide range of topics including rubber engineering, biomass utilization, essential oil processing, biofuels, and industrial biotechnology. As a lead researcher in numerous major projects, he has developed innovations such as solid foam tires, rubber-based medical and mobility components, asphalt-strengthening rubber additives, membrane filter press materials, and rubberized industrial products. His research excellence has resulted in multiple patents related to rubber processing devices and high-performance rubber formulations. Dr. Nasruddin has received several prestigious national awards for innovation and research leadership, reflecting his strong impact on Indonesia’s industrial and scientific

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Featured Publications

Nasruddin. (2017). The effect of natural-based oil as plasticizer towards physics-mechanical properties of NR-SBR blending for solid tyre. International Conference of the Indonesian Chemical Society (ICICS), 1.

Nasruddin. (2020). Study of the mechanical properties of natural rubber composites with synthetic rubber using used cooking oil as a softener. Indonesian Journal of Chemistry, 20, 967–978.

Nasruddin, Setianto, W. B., Yohanes, H., Atmaji, G., Yanto, D. H. Y., Wulandari, E. P., Marlina, P., Wiranata, A., & Ibrahim, B. (2023). Characterization of natural rubber, styrene butadiene rubber, and nitrile butadiene rubber monomer blend composites loaded with zinc stearate for the solid tire industry. Applied Sciences, 13(3), 1277.

Nasruddin. (2019). Natural rubber composites for solid tyre used for forklift: Tensile properties and morphological characteristics. Sriwijaya International Conference on Basic and Applied Science, 1282, 1–9.

Nasruddin. (2019). Composites of natural rubber, carbon black, and kaolin sodium bicarbonate content for sponge application. IOP Conference Series: Materials Science and Engineering, 509, 012094.

Ibrahim, B., Helwani, Z., Wiranata, A., Fadhillah, I., Miharyono, J., & Nasruddin. (2022). Properties of emulsion paints with binders based on natural latex grafting styrene and methyl methacrylate. Applied Sciences, 12(24), 12802.

Nasruddin, Agustini, S., & Sholeh, M. (2021). Utilization of kaolin as a filling material for rubber solid tire compounds for two-wheeled electric scooters. IOP Conference Series: Materials Science and Engineering, 1143, 012010.

Marlina, P., Prasetya, H. A., Rahmaniar, Nugroho, A. K., Yusya, M. K., & Nasruddin. (2022). The rheological and mechanical properties of natural rubber/graphene composites. IOP Conference Series: Earth and Environmental Science, 963, 012026.

Nasruddin & Affandy, R. (2011). Karakteristik briket dari tongkol jagung dengan perekat tetes tebu dan kanji. Jurnal Dinamika Penelitian Industri, 22(2), 1–10.

Sivasamy Paulsamy | Mechanical Properties | Editorial Board Member

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Dr. Sivasamy Paulsamy | Mechanical Properties | Editorial Board Member

Associate Professor | PSR Engineering College | India

Dr. Sivasamy Paulsamy is a highly active researcher in the fields of thermal engineering, nanomaterials, and advanced energy storage systems, with a strong focus on thermal energy storage, phase change materials (PCMs), nanofluids, and solar energy-based storage technologies. His research contributions significantly advance heat transfer enhancement techniques, including the development of nano-enhanced PCMs, graphene- and CNT-based thermal systems, and composite materials engineered for efficient energy storage. With expertise spanning kinematics and dynamics of machinery, strength of materials, thermodynamics, heat and mass transfer, and finite element analysis, he integrates theoretical and experimental approaches to address challenges in next-generation thermal and mechanical systems. Dr. Paulsamy has authored impactful publications, including widely cited works on nano-enhanced PCMs, polymer composites with ZnO nanoparticles, metallic nanoparticle-embedded PCMs, and advanced thermal materials, contributing to over 340 Google Scholar citations with an h-index of 9. His software proficiency encompasses CFD (Fluent), ANSYS, Pro-E, AutoCAD, and SolidWorks, supporting his computational modeling and design research. He has actively participated in AICTE-sponsored training programs, faculty development initiatives, and international conferences on nanoscience, nanotechnology, and functional materials, reflecting his commitment to continuous knowledge advancement and scientific collaboration. In addition to his research activities, he has undertaken various professional responsibilities such as coordinating academic programs, organizing national and international conferences, managing laboratories, and facilitating technical workshops, thereby contributing substantively to the academic and scientific community.

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Featured Publications

Sivasamy, P., Harikrishnan, S., Imran Hussain, S., Devaraju, A., & Kalaiselvam, S. (2017). Improved performance of a newly prepared nano-enhanced phase change material for solar energy storage. Journal of Mechanical Science and Technology, 31(10), 4903–4910.

Sivasamy, P., Devaraju, A., & Harikrishnan, S. (2018). Review on heat transfer enhancement of phase change materials (PCMs). Materials Today: Proceedings, 5(6), 14423–14431.

Devaraju, A., Sivasamy, P., & Loganathan, G. B. (2020). Mechanical properties of polymer composites with ZnO nanoparticles. Materials Today: Proceedings, 22, 531–534.

Ayyasamy, L. R., Mohan, A., Rex, L. K., Sivakumar, V. L., Dhanasingh, S. V., … & Sivasamy, P. (2022). Enhanced thermal characteristics of CuO embedded lauric acid phase change material. Thermal Science, 26(2 Part B), 1615–1621.

Sivasamy, P., Harikrishnan, S., Imran Hussain, S., Kalaiselvam, S., … (2019). Improved thermal characteristics of Ag nanoparticles dispersed myristic acid as composite for low temperature thermal energy storage. Materials Research Express, 6(8), 085066.

Suresh Vellingiri | Matrix Composites | Pioneer Researcher Award

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Dr. Suresh Vellingiri | Matrix Composites | Pioneer Researcher Award

Associate Professor | Kalaignar karunanidhi Institute of Technology | India

Dr. Suresh Vellingiri is a distinguished academic and researcher in the field of Mechanical Engineering, currently serving as an Associate Professor at KIT–Kalaignarkarunanidhi Institute of Technology, Coimbatore. He holds a Ph.D. in Mechanical Engineering from Anna University, obtained in 2014, along with an M.E. in Engineering Design and a B.E. in Mechanical Engineering, both with first-class distinction. With over two decades of academic and research experience, including 11 years post-Ph.D., Dr. Vellingiri has made notable contributions in materials and manufacturing processes, composite materials, CAD/CAM, FEA, and additive manufacturing technologies. His doctoral research focused on the mechanical testing and machining parameter analysis of LM25 aluminium hybrid metal matrix composites reinforced with boron carbide and graphite. A recognized research supervisor under Anna University, he has published extensively in reputed journals, achieving over 970 citations with an h-index of 13 and i10-index of 16. His research includes innovative works on intelligent control systems, solar energy applications, and biofuels with nano-additives. Beyond research, Dr. Vellingiri has played several academic leadership roles, including Research Coordinator, NBA/NAAC Criteria Coordinator, and International Conference Organizer at various engineering institutions. His consistent efforts in promoting academic excellence, mentoring young researchers, and integrating modern design and manufacturing concepts into education exemplify his dedication to advancing engineering science and technology. Through his scholarly impact, leadership, and research innovation, Dr. Vellingiri continues to be a driving force in the evolving field of mechanical and manufacturing engineering.

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Featured Publications

  • Perundyurai, T. S., Vellingiri, S., Rajendrian, S., Munusamy, S., & Chinnaiyan, S. (2020). K-nearest neighbour technique for the effective prediction of refrigeration parameter compatible for automobile. Thermal Science, 24(1 Part B), 565–569.

  • Vigneshkumar, N., Venkatasudhahar, M., Kumar, P. M., Ramesh, A., Subbiah, R., & Vellingiri, S. (2021). Investigation on indirect solar dryer for drying sliced potatoes using phase change materials (PCM). Materials Today: Proceedings, 47, 5233–5238.

  • Vasanthaseelan, S., Kumar, P. M., Anandkumar, R., Ram, K. H., Subbiah, R., & Vellingiri, S. (2021). Investigation on solar water heater with different types of turbulators. Materials Today: Proceedings, 47, 5203–5208.

  • Saravankumar, P. T., Suresh, V., Vijayan, V., & Godwin Antony, A. (2019). Ecological effect of corn oil biofuel with SiO₂ nano-additives. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 41, 1–10.

  • Sathish Kumar, A., Naveen, S., Vijayakumar, R., Suresh, V., Asary, A. R., & Others. (2023). An intelligent fuzzy-particle swarm optimization supervisory-based control of robot manipulator for industrial welding applications. Scientific Reports, 13(1), 8253.