| Assoc. Prof. Dr. | Soner | Top | Abdullah Gül University | Turkey | Modeling | Metallurgy/Hydrometallurgy | Innovative Research Award | Innovative Research Award | globalcompositeawards.com |
| Dr. | زينب | محسن | الجامعة التكنولوجية | Iraq | Processing and Manufacturing | **Topic:** Drilling-induced delamination in Fiber Reinforced Polymer (FRP) composites and its effect on hole quality and mechanical performance. **Subtopic:** Experimental investigation and optimization of drilling parameters (spindle speed, feed rate, and drill diameter) on entrance and exit delamination in carbon and glass fiber-reinforced composites using Taguchi design and regression modeling. **Service (Research/Application Area):** Manufacturing process optimization and machining quality improvement of advanced composite materials, specifically focusing on drilling parameter optimization to minimize delamination and enhance structural integrity in aerospace and mechanical engineering applications. | Best Researcher Award | Best Researcher Award | globalcompositeawards.com |
| Dr. | Corina | Carranca | INIAV | Portugal | Polymer-Matrix composites | Plásticos e biofilmes | Best Innovator Award | Best Innovation Award | globalcompositeawards.com |
| Mr. | Rashid | Hussain | Karakoram International University | Pakistan | Other | Mathematics | Best Researcher Award | Best Researcher Award | globalcompositeawards.com |
| Prof. | Ryspek | Usubamatov | Kyrgyz State Technical University | Kyrgyzstan | Processing and Manufacturing | Теория производительности промышленных машин и систем | Performance Optimization Award | Performance Optimization Award | globalcompositeawards.com |
| Prof. | Elisabetta M | Zanetti | University of Perugia | Italy | Ceramic-Matrix composites | Dental | Breakthrough Research Award | Breakthrough Research Award | globalcompositeawards.com |
| Dr. | Sahya | Maulu | Palabana University | Zambia | Environmental effects | Composite materials | Research Excellence Award | Research Excellence Award | globalcompositeawards.com |
| Prof. Dr. | Ahmed | El Danaf | GOTHI, Cairo | Egypt | Other | Medicine: Plastic, Reconstructive, and Maillofacial Surgery | Research Excellence Award | Research Excellence Award | globalcompositeawards.com |
| Mr. | Morteza | khomami abadi | Amirkabir University Technology | Iran | Modeling | Composite material | Research Excellence Award | Research Excellence Award | globalcompositeawards.com |
| Dr. | Min-Su | Lee | Korea Institute of Industrial and Technology | South Korea | Metal-Matrix Composites | Testing | Excellence in Research Award | Excellence in Research Award | globalcompositeawards.com |
| Prof. | Huitao | Yu | Inner Mongolia University of Science and Technology | China | Environmental effects | 24/7 Smart Green Temperature Control | Research Excellence Award | Research Excellence Award | globalcompositeawards.com |
| Assist. Prof. Dr. | Ming-Gen | Li | Shantou University | China | Environmental effects | Statistical Physics/Nonequilibrium Statistical Physics | Research Excellence Award | Research Excellence Award | globalcompositeawards.com |
| Prof. | Faris | AL-Oqla | The Hashemite University | Jordan | Reinforcement Materials | Green cellulosic composite materials | Distinguished Scientist Award | Distinguished Scientist Award | globalcompositeawards.com |
| Mr. | Abdul Vahap | Korkmaz | Afyon Kocatepe University | Turkey | Properties and Performance | The developed cementitious materials demonstrate high mechanical performance while significantly reducing clinker content. Magnesium slag–based binders exhibit improved microstructural density and long-term durability. The optimized formulations achieve competitive compressive strength compared to conventional Portland cement systems. Mechanochemically activated waste materials enhance hydration efficiency and performance stability. The incorporation of industrial by-products improves material efficiency without compromising structural integrity. Reduced porosity and refined particle packing contribute to enhanced durability and resistance to microcracking. The proposed cement systems maintain consistent performance under practical processing and curing conditions. Overall performance confirms the technical viability of low-carbon, waste-derived cement composites. | Best Researcher Award | Best Researcher Award | globalcompositeawards.com |
| Dr. | Elmer Marcial | Cervantes Ramírez | Tecnologico Nacional de México campus Chetumal | Mexico | Polymer-Matrix composites | Phase Change Material Analysis | Research Excellence Award | Research Excellence Award | globalcompositeawards.com |
| Dr. | Robert | Zarzycki | Czestochowa University of Technology | Poland | Environmental effects | biochar, biomass | Research Excellence Award | Research Excellence Award | globalcompositeawards.com |
| Mr. | Fei | Liu | Hefei University of Technology | China | Processing and Manufacturing | Welding, material joining technology | Research Excellence Award | Research Excellence Award | globalcompositeawards.com |
| Prof. | Moustafa | Zagho | University of South Alabama | United States | Polymer-Matrix composites | Materials Science/Polymer Science and Engineering/Mass and Heat Transport | Best Researcher Award | Best Researcher Award | globalcompositeawards.com |
| Mrs. | Monika | Gębara | Czestochowa University of Technology | Poland | Modeling | Magnetic macrocomposites | Innovative Research Award | Innovative Research Award | globalcompositeawards.com |
| Dr. | Xifeng | Gao | School of Instrument Science and Engineering, Harbin Institute of Technology | China | Other | Robot Systems; Systems Engineering; Tracking Control | Research Excellence Award | Research Excellence Award | globalcompositeawards.com |