Azeem Pasha | Metal Matrix Composites | Editorial Board Member

Published on 15/11/202515/11/2025 by Composite Awards

Azeem Pasha | Metal Matrix Composites | Editorial Board Member

Prof. Azeem Pasha at KNS Institute of Technology | India

Azeem Pasha is a dedicated mechanical engineering researcher specializing in functionally graded materials (FGMs) for aerospace and automotive applications, with a strong focus on composite design, powder metallurgy, nano-reinforcement, and advanced material characterization. Currently pursuing his Ph.D. at Bangalore University, his research investigates microstructural tailoring and performance enhancement of AlSi-based FGMs reinforced with carbon nanotubes (CNTs) and multi-walled carbon nanotubes (MWCNTs), aiming to achieve superior mechanical, tribological, and structural reliability in high-stress environments. His academic career includes extensive teaching and research experience as an Assistant Professor at KNSIT Institute of Technology since 2022, following seven years of service at Brindavan College of Engineering. His publications demonstrate a consistent focus on functional gradation, powder metallurgy, hot extrusion, and hybrid composite development, with notable works addressing tribological behavior of CNT-reinforced AlSi FGMs, microstructure and mechanical properties of AlSi/MWCNT composite cylinders, CNT content optimization, and load-dependent wear and friction mechanisms. Expanding beyond metal-based FGMs, he has also contributed to polymer composite engineering, including studies on low-velocity impact strength of E-glass and carbon-fiber hybrid laminates. His research integrates experimental characterization, microstructural analysis, mechanical testing, and property–performance correlations, contributing to the development of lightweight, high-strength, and wear-resistant materials for futuristic transportation systems. As an editorial board member and reviewer for multiple Scopus-indexed journals, he actively contributes to the scientific community, ensuring rigorous evaluation and dissemination of emerging research in materials engineering. His ongoing doctoral work continues to advance the understanding of gradient material behavior, nano-reinforcement distribution, and process–property interactions, positioning him as an emerging researcher committed to developing next-generation materials capable of meeting demanding aerospace, automotive, and high-performance engineering applications.

Profile: Scopus | Orcid

Featured Publications

Pasha, A., & Rajaprakash, B. M. (2023). Tribological behavior of powder metallurgy processed carbon nanotube reinforced AlSi functionally graded materials. Material Science Research India, 20(2).

Pasha, A., & Rajaprakash, B. M. (2023). Microstructure and mechanical properties of functionally graded AlSi/MWCNT composite cylinders. Material Science Research India, 20(1).

Prasad, M., Ahmed, N., Pasha, A., & Manjunath, A. C. (2022). Experimental investigation on low-velocity impact strength of E-glass/carbon fiber reinforced hybrid polymer composite. International Journal of Vehicle Structures and Systems, 14(2).

Pasha, A., & Rajaprakash, B. M. (2022). Effect of CNT content on microstructure and hardness of AlSi/MWCNT nanocomposite. Materials Today: Proceedings, 58.

Pasha, A., & Rajaprakash, B. M. (2022). Effect of load on wear and friction of AlSi/MWCNT functionally graded material via powder metallurgy with hot extrusion technique. Material Science Research India, 19(3).

Ghodratollah Roudini | Metal Matrix Composites | Editorial Board Member

Published on 15/11/202515/11/2025 by Composite Awards

Ghodratollah Roudini | Metal Matrix Composites | Editorial Board Member

Dr. Ghodratollah Roudini at University of Sistan & Baluchestan | Iran

Dr. Ghodratollah Roudini is an accomplished Iranian materials engineer and Associate Professor at the University of Sistan and Baluchestan, where he has served since 2007 and played influential leadership roles, including Vice President for Planning and Development and Head of the Materials Engineering Department. Born on 23 September 1962 in Zabol, Iran, he holds a Ph.D. in Materials Engineering from the Laboratory for Mechanical Metallurgy (LMM) at EPFL, Switzerland, along with Master’s and Bachelor’s degrees in Materials Engineering from Tehran University and Shiraz University. His research expertise spans metal matrix composites, nanocomposites, phase-change materials, thermal energy storage systems, metal forming, and advanced materials design. Dr. Roudini has led and supervised extensive graduate and undergraduate research, contributing significantly to the development of innovative materials with tailored mechanical, thermal, and structural properties. His scholarly contributions include impactful publications on composite behavior, wear mechanisms, interpenetrating-phase structures, hydrophobic nanocomposites for oil–water separation, dislocation modeling, thermal energy storage nanomaterials, and advanced coating technologies. His recent works explore the mechanical and tribological performance of hybrid aluminum–ceramic composites, the design of polyurethane–magnetite–titanium dioxide nanocomposites, and the engineering of SiO2- and graphene-based thermal storage materials, reflecting his broad scientific vision and interdisciplinary approach. With deep experience in teaching advanced materials, metal forming, powder metallurgy, composites, nanocomposites, and dislocation theory, he has shaped the academic growth of many students. His career also includes earlier roles as lecturer and teaching assistant, marking more than three decades of continuous academic engagement. Highly respected for his scientific rigor and commitment to practical materials innovation, Dr. Roudini continues to contribute to engineering research that advances industrial, energy, and environmental applications.

Profile: Scopus

Featured Publications

Zeinali-Moghaddam, H., Roudini, G., & Khosravi, H. (2024). Influence of nanodiamond on compressive and dry-sliding wear behaviors of Al₂O₃–Al interpenetrating-phase composites. Diamond and Related Materials, 149, 111627.

Aghapour, J., Roudini, G., & Khosravi, M. (2024). Mechanical behavior of Al/Al₂O₃p–SiCp hybrid composite fabricated by hot pressing method. Materials Letters, 11(15), 137215.

Hashemi Shahri, S., & Roudini, G. (2023). Mechanical behavior of magnesium–steel particles composites with interpenetrating phases. Journal of Particle Science and Technology, 9(1), 29–34.

Khandan Barani, A., Roudini, G., Barahuie, F., & Masuri, S. U. B. (2023). Design of hydrophobic polyurethane–magnetite iron oxide–titanium dioxide nanocomposites for oil–water separation. Heliyon, 9(5), e15580.

Musavi, S. M., Roudini, G., Barahuie, F., & Masuri, S. U. B. (2021). Thermal energy storage property and temperature control performance of phase change materials eutectic mixture nanocomposite. Micro and Nanosystems, 14(3), 272–280.

Yung Hui Huang | Radiological Sciences | Best Researcher Award

Published on 13/10/202513/10/2025 by Composite Awards

Yung Hui Huang | Radiological Sciences | Best Researcher Award

Prof. Yung Hui Huang at I-Shou university | Taiwan

Yung-Hui Huang is a distinguished researcher in Medical Imaging and Radiological Sciences at I-Shou University, Taiwan. He earned his Ph.D. (2008) and M.S. (2003) from National Yang-Ming University, Taiwan, specializing in biomedical imaging and radiological sciences, and holds a B.S. in Electrical Engineering (2001) from National Taipei University of Technology, Taiwan. Dr. Huang’s research focuses on advanced imaging techniques, medical image analysis, and machine learning applications in radiology, with a particular emphasis on ultrasound, CT, PET, and MRI imaging modalities. He has authored 52 documents, which have been cited 363 times, resulting in an h-index of 9. His publications appear in internationally recognized journals such as Scientific Reports, Healthcare, Sensors, and the Journal of X-Ray Science and Technology, covering topics from prostate cancer detection, liver and breast imaging, COVID-19 classification, to Parkinson’s disease staging and radiation dosimetry. Dr. Huang’s work combines deep learning, fusion feature extraction, and computational imaging techniques to improve diagnostic accuracy and clinical workflow efficiency. He continues to advance medical imaging research through innovative studies, interdisciplinary collaboration, and mentorship of emerging scientists in the field.

Profile: Scopus | Orcid

Featured Publications

Lu, N.-H., Wang, C.-Y., Liu, K.-Y., Huang, Y.-H., & Chen, T.-B. (2025). AI-enhanced deep learning framework for pulmonary embolism detection in CT angiography. Bioengineering, 12(10), 1055.

Liu, K.-Y., Lu, N.-H., Huang, Y.-H., Matsushima, A., Kimura, K., Okamoto, T., & Chen, T.-B. (2025). Majority voting ensemble of deep CNNs for robust MRI-based brain tumor classification. Diagnostics, 15(14), 1782.

Wang, Y.-M., Wang, C.-Y., Liu, K.-Y., Huang, Y.-H., Chen, T.-B., Chiu, K.-N., Liang, C.-Y., & Lu, N.-H. (2024). CNN-based cross-modality fusion for enhanced breast cancer detection using mammography and ultrasound. Tomography, 10(12), 145.

Yang, S.-Y., Hsu, S.-Y., Su, Y.-K., Lu, N.-H., Liu, K.-Y., Chen, T.-B., Chiu, K.-N., Huang, Y.-H., & Yeh, L.-R. (2024). Using key predictors in an SVM model for differentiating spinal fractures and herniated intervertebral discs in preoperative anesthesia evaluation. Diagnostics, 14(21), 2456.

Wang, J.-Z., Lu, N.-H., Du, W.-C., Liu, K.-Y., Hsu, S.-Y., Wang, C.-Y., Chen, Y.-J., Chang, L.-C., Twan, W.-H., Chen, T.-B., & Huang, Y.-H. (2023). Classification of color fundus photographs using fusion extracted features and customized CNN models. Healthcare, 11(15), 2228.

Olufisayo Emmanuel Ojo | Environmental effects | Best Researcher Award

Published on 13/10/202513/10/2025 by Composite Awards

Olufisayo Emmanuel Ojo | Environmental effects | Best Researcher Award

Mr. Olufisayo Emmanuel Ojo at Atmosfair Climate & Sustainability Limited | Nigeria

Mr. Olufisayo Emmanuel Ojo (R.Engr., IEng – UK, MSc, B.Eng (Hons), M.I.E.T, MNSE) is a distinguished Electromechanical and Water Engineer with over 22 years of professional experience in engineering design, project management, and infrastructural development. He currently serves as the General Manager and Team Lead (Nigeria) for atmosfair gGmbH, Germany, where he directs climate carbon mitigation initiatives, including the establishment and management of a large-scale Improved Cook Stove (ICS) production plant in Nigeria. His diverse expertise encompasses the design and supervision of water treatment facilities, civil and electromechanical infrastructures, hydraulic systems, and asset maintenance management, with notable contributions to projects funded by the World Bank, AFD, EBRD, USAID/E-WASH/RTI, and other international development agencies. A certified professional in Public Procurement, Contract Management, and Monitoring & Evaluation, Mr. Ojo has demonstrated exceptional technical leadership in Non-Revenue Water (NRW) management and sanitation transformation programs. Academically, he holds an M.Sc. (Research) in Mechanical Engineering (Summa Cum Laude) from the University of KwaZulu-Natal, an Hons B.Eng in Mechanical and Manufacturing Engineering from the University of Portsmouth, UK, and an HND in Mechanical Engineering from The Polytechnic, Ibadan, Nigeria, while currently pursuing a Ph.D. in Mechanical Engineering and a Doctor of Engineering (D.Eng) in Industrial Engineering in South Africa. A registered engineer with COREN, MNSE, and MIET (UK), Mr. Ojo has co-authored several impactful publications in renewable energy, desalination systems, and sustainable engineering technologies. His research work has garnered 10 citations, an h-index of 2, and an i10-index of 0. Known for his strategic leadership, innovation, and commitment to sustainable development, Mr. Ojo continues to drive transformative engineering solutions that foster environmental efficiency and resilience.

Profile: Orcid | GoogleScholar | Linkedin

Featured Publications

Ojo, O. E., & Olanrewaju, O. (2024). A review of renewable energy powered seawater desalination treatment process for zero waste. Water, 16(19), 2804.

Ojo, O. E., & Inambao, F. (2024). Additives and blends of biodiesel. Journal of Propulsion Technology, 45(1), 5032–5050.

Ojo, O. E., & Inambao, F. L. (2024). GT-Power for internal combustion engine simulation: A review. Journal of Aeronautical Materials, 44(2), 38–61.

Ojo, O. E., & Inambao, F. (2024). Real-world applications of waste swine oil (pork lard waste) biodiesel: A review. Journal of Aeronautical Materials, 44(2), 38–61.

Ojo, O. E., Ige, O. E., & Inambao, F. L. (2023). A review of seawater membrane desalination. Corrosion and Protection, 51(2), 476–491.

Seyedeh Tina Sefati | Deep Learning | Best Researcher Award

Published on 10/10/202510/10/2025 by Composite Awards

Seyedeh Tina Sefati | Deep Learning | Best Researcher Award

Dr. Seyedeh Tina Sefati at University of Tabriz | Iran

Tina Sefati is a Ph.D. candidate in Artificial Intelligence at the University of Tabriz and serves as an AI engineer and CEO at SaamDigital Eurasia, leading AI-driven projects across more than ten countries. Her research focuses on deep learning, supervised and unsupervised learning, time series anomaly detection, and generative models, with extensive expertise in CNNs, LSTMs, GANs, Transformers, and GNNs. She holds an MSc in Artificial Intelligence from the University of Tabriz, where she worked on improving spam filtering using game theory, as well as an M.Sc. in MBA and a BSc in Computer Engineering (Software) from Seraj University, with a thesis on solving the Traveling Salesman Problem using Ant Colony Optimization. Tina has over a decade of experience designing, developing, and managing AI-based systems for large organizations such as HepsiBurada and AndME in Turkey, delivering solutions in product recommendation, stock forecasting, credit scoring, intelligent smile design, license plate recognition, and face recognition systems. She has authored 33 publications, which have received 560 citations across 446 documents, reflecting an h-index of 12, demonstrating the impact of her research contributions. Her technical skills span deep learning, machine learning, NLP, image processing, time series analysis, Python, Flask, SQL, Git, and API development. Tina has also contributed to education as a programming and web design instructor and has successfully led AI projects that integrate statistical methods, NLP, and cloud-based architectures for big data analytics. Recognized for her innovation, leadership, and hands-on expertise in AI applications, she continues to advance research and practical AI solutions, bridging academic insights with industry impact.

Profile: Scopus | Orcid | GoogleScholar

Featured Publications

Sefati, S. S., Arasteh, B., Halunga, S., & Fratu, O. (2025). Adaptive service recommendation in Internet of Things using a reinforcement learning and optimization algorithm. IEEE Transactions on Network and Service Management.

Ul Haq, A., Sefati, S. S., Nawaz, S. J., Mihovska, A., & Beliatis, M. J. (2025). Need of UAVs and physical layer security in next-generation non-terrestrial wireless networks: Potential challenges and open issues. IEEE Open Journal of Vehicular Technology.

Sefati, S. S., Sefati, S. T., Nazir, S., Zareh Farkhady, R., & Obreja, S. G. (2025, October 6). Federated reinforcement learning with hybrid optimization for secure and reliable data transmission in wireless sensor networks (WSNs). Mathematics.

Arasteh, B., Sefati, S. S., Kusetogullari, H., & Kiani, F. (2025, September 12). Generating software architectural model from source code using module clustering. Symmetry.

Sefati, S. S., Arasteh, B., Craciunescu, R., & Comsa, C.-R. (2025, February 12). Intelligent congestion control in wireless sensor networks (WSN) based on generative adversarial networks (GANs) and optimization algorithms. Mathematics.

Rahul Goyal | Environmental effects | Excellence in Research Award

Published on 10/10/202510/10/2025 by Composite Awards

Rahul Goyal | Environmental effects | Excellence in Research Award

Prof. Rahul Goyal at Manipal University Jaipur | India

Dr. Rahul Goyal is a distinguished Professor in the Department of Mechanical Engineering at Manipal University Jaipur, with over 22 years of teaching and research experience. He earned his Ph.D. in Mechanical Engineering from Malaviya National Institute of Technology (MNIT), Jaipur, in 2015, focusing his research on the development of a CI engine-operated micro trigeneration system for power, heating, and space cooling. He also holds an M.Tech in Thermal Engineering from the University College of Engineering, Kota (2010), and a B.E. in Mechanical Engineering from the University of Rajasthan (2003). Throughout his academic journey, Dr. Goyal has held several key administrative and academic positions, including Head of the Department at Manipal University Jaipur, Vivekananda Global University, and Vivekananda Institute of Technology (East), and has served as a member of the Executive Circles for NAAC and NIRF at Manipal University. His research interests encompass thermal engineering, renewable and sustainable energy systems, emission control, and advanced thermal materials. Dr. Goyal has authored 51 research publications, which have received 933 citations across 853 documents, reflecting an h-index of 16, highlighting the significance and quality of his scholarly contributions. He has successfully supervised multiple Ph.D. scholars on topics such as solar air heaters, water-diesel emulsified fuels with nanoparticles, thermal energy storage systems, and emission optimization in automobiles. Renowned for his academic leadership, technical expertise, and commitment to innovation, Dr. Rahul Goyal continues to make impactful contributions to mechanical and thermal engineering education and research in India.

Profile: Scopuis | Orcid | GoogleScholar

Featured Publications

Singh, P., Sharma, R. K., Ansu, A. K., Goyal, R., Sarı, A., & Tyagi, V. V. (2021). A comprehensive review on development of eutectic organic phase change materials and their composites for low and medium range thermal energy storage applications. Solar Energy Materials and Solar Cells, 223, 110955.

Khatri, R., Goyal, R., & Sharma, R. K. (2021). Advances in the developments of solar cooker for sustainable development: A comprehensive review. Renewable and Sustainable Energy Reviews, 145, 111166.

Singh, P., Sharma, R. K., Khalid, M., Goyal, R., Sarı, A., & Tyagi, V. V. (2022). Evaluation of carbon based-supporting materials for developing form-stable organic phase change materials for thermal energy storage: A review. Solar Energy Materials and Solar Cells, 246, 111896.

Sonar, D., Soni, S. L., Sharma, D., Srivastava, A., & Goyal, R. (2015). Performance and emission characteristics of a diesel engine with varying injection pressure and fuelled with raw mahua oil (preheated and blends) and mahua oil methyl ester. Clean Technologies and Environmental Policy, 17(6), 1499–1511.

Khatri, D., & Goyal, R. (2020). Effects of silicon dioxide nanoparticles on the performance and emission features at different injection timings using water diesel emulsified fuel. Energy Conversion and Management, 205, 112379.

Xiaodong Jia | Coatings | Best Researcher Award

Published on 07/10/202507/10/2025 by Composite Awards

Xiaodong Jia | Coatings | Best Researcher Award

Assoc. Prof. Dr. Xiaodong Jia is Deputy Director of the Science and Technology Division at Chongqing Open University | China

Shujiang Liu, Ph.D., is a Professor at the School of Materials Science and Engineering, Qilu University of Technology, with over two decades of dedicated experience in the teaching and research of glass materials. His scholarly expertise spans across high-strength glasses, transparent glass-ceramics, and optical glasses, making significant contributions to both the academic community and industrial applications of advanced glass science. Over the years, Professor Liu has actively engaged in professional service, holding key roles such as member of the Glass Branch of the Chinese Ceramics Society, Chairman of the Shandong Glass Standards Committee, and member of the Expert Committee of the China Household Glass Association. He has authored more than 75 peer-reviewed publications in internationally recognized journals, which have been cited 916 times by 814 documents, with an h-index of 15. His research contributions provide original insights into glass crystallization, sintering behavior, phase separation, and novel glass-ceramic applications, while he also serves as a reviewer for leading journals including the Journal of Non-Crystalline Solids, Ceramics International, and the Journal of the American Ceramic Society. His recent research highlights include studies on the influence of trace elements such as NiO on soda-lime-silicate and aluminosilicate glasses, the mixed-alkali effect in borate glass systems, and the role of phase separation in self-limited crystallization and crack growth resistance in phosphosilicate glasses. His team has also advanced knowledge on glass powders’ sintering behavior, early densification effects on glass–calcium carbonate mixtures, and the development of glass-ceramics as high-performance lithium-ion battery anode materials. With a consistent record of collaborative research and impactful publications from 2020 to 2025, Professor Liu continues to push the boundaries of glass science while fostering innovation in materials engineering. His work bridges fundamental research and applied technology, strengthening China’s position in glass science and standardization efforts worldwide.

Profile: Orcid

Featured Publications

Jia, X., Ge, Y., Zhu, H., & Zheng, K. (2025). Performance enhancement and nano-scale interaction mechanism of asphalt modified with solid waste-derived nano-micro-powders. Coatings, 15(9), 1079.

Silvia Zecchi | Materials Science | Best Researcher Award

Published on 20/11/202420/11/2024 by Composite Awards

Silvia Zecchi | Materials Science | Best Researcher Award

Ms. Silvia Zecchi, Politecnico di Torino, Italy.

Silvia Zecchi, M.Sc. , is a dedicated researcher in Materials Science at Politecnico di Torino. She is pursuing a Ph.D. focused on polymer composites for low observable technology and stealth applications. Silvia is a member of the Carbon Group and the National Interuniversity Consortium of Materials Science and Technology (INSTM). She has gained practical experience as a Quality and Innovation Intern at Moncler and has contributed to high-impact research in carbon fiber production and recycling. Silvia has presented her work at prestigious conferences like ICTF and ECCM, and she is also a co-inventor of a patent for stealth technology.

Publication profile

Scopus

Orcid

Education and Experience

Doctorate in Materials Science and Technology, Politecnico di Torino (2022–Present).
Master’s Degree in Materials Engineering, Politecnico di Torino (2022).
Bachelor’s Degree in Materials Engineering, Politecnico di Torino (2019).
Visiting Ph.D. Student, National Technical University of Athens (2023–2024).
Intern, Quality and Innovation at Moncler, Milano, Italy (2022).

Suitability For The Award

Ms. Silvia Zecchi is an exceptional candidate for the Best Researcher Award, as she has demonstrated outstanding contributions to the field of Materials Science and Technology, specifically in the areas of polymer composites, carbon materials, and stealth technologies.

Professional Development

Silvia Zecchi is actively advancing her expertise in materials science through academic and professional engagements. As a Ph.D. candidate at Politecnico di Torino, her research explores innovative polymer composites for stealth and electromagnetic shielding technologies. Her visiting Ph.D. tenure at the National Technical University of Athens has expanded her international collaboration skills. Silvia’s active memberships in the Carbon Group and INSTM enhance her understanding of carbon materials. As a speaker at the ICTF 2023 conference and contributor to ECCM, she has gained recognition for her work in sustainable carbon fiber and recycling.

Research Focus

Silvia Zecchi’s research lies in advanced materials science with an emphasis on polymer composites and carbon fiber technologies. She focuses on sustainable production processes for lignin-derived carbon fibers, recycling automotive composites, and stealth applications for low observable technology. Her work contributes to enhancing material efficiency and environmental sustainability. Silvia’s patent on iron-based compounds for stealth technologies demonstrates her innovative approach to integrating materials science with real-world applications, including electromagnetic shielding and advanced defense systems.

Awards and Honors

Co-inventor of a patent for an iron-based compound usable in stealth technologies.
Invited Speaker at the 19th International Conference on Thin Films (ICTF) 2023.
Contributor to 21st European Conference on Composite Material with two impactful research papers.

Publications

Miscanthus-Derived Biochar as a Platform for the Production of Fillers for the Improvement of Mechanical and Electromagnetic Properties of Epoxy Composites, Scavuzzo, S., Zecchi, S., Cristoforo, G., Etzi, M., Bartoli, M. (2024) – C-Journal of Carbon Research, 10(3), 81 – 0 citations.
A Comprehensive Review of Electromagnetic Interference Shielding Composite Materials, Zecchi, S., Cristoforo, G., Bartoli, M., Boccaccio, M., Acerra, F. (2024) – Micromachines, 15(2), 187 – 7 citations.
Selective Laser Sintering versus Multi Jet Fusion: A Comprehensive Comparison Study Based on the Properties of Glass Beads-Reinforced Polyamide 12, Lupone, F., Padovano, E., Lambertini, V.G., Zecchi, S., Badini, C. (2024) – Advanced Engineering Materials, 26(3), 2301345 – 1 citation.
Effect of Red Mud Addition on Electrical and Magnetic Properties of Hemp-Derived-Biochar-Containing Epoxy Composites, Zecchi, S., Ruscillo, F., Cristoforo, G., Berruti, F., Tagliaferro, A. (2023) – Micromachines, 14(2), 429 – 5 citations.