Abishek G L | Civil Engineering | Best Academic Researcher Award

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Mr. Abishek G L | Civil Engineering | Best Academic Researcher Award

Assistant Professor | Mar Ephraem College of Engineering and Technology | India

Dr. G. L. Abishek has established himself as a dedicated researcher in the field of Civil and Structural Engineering, with a primary focus on the performance, durability, and innovation of construction materials and structural systems. His research contributions emphasize the experimental and analytical investigation of advanced materials such as fiber-reinforced polymers (FRP), self-curing concrete, geopolymer concrete, and sustainable waste-based composites. He has published impactful works in high-quality international journals, including Elsevier’s Journal of Building Engineering and Computers and Concrete, addressing critical issues in enhancing structural performance, load-bearing capacity, and the long-term reliability of reinforced concrete systems. His recent studies on the lateral load behavior of aramid (Kevlar) and CFRP-strengthened concrete piles provide valuable insights into improving infrastructure resilience and service life under complex loading conditions. Dr. Abishek’s academic career is marked by a balance between theoretical understanding and practical application, bridging research and engineering practice. Beyond publishing, he actively engages in professional development through participation in national workshops focused on earthquake-resistant structures, finite element modeling, optimization, and modern computational tools such as MATLAB and Python for structural analysis. His continuous exploration of sustainable construction materials and innovative strengthening techniques underscores his commitment to advancing the field of structural engineering and promoting environmentally responsible design solutions. Dr. Abishek’s research reflects a forward-looking approach aimed at improving the safety, sustainability, and efficiency of civil infrastructure systems through material innovation and scientific rigor.

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Featured Publications

Abishek, G. L. (2016). Experimental investigation of high-strength characteristics of self-curing concrete. International Journal for Modern Trends in Science and Technology, 2(7), 61–65.

Abishek, G. L. (2016). Experimental investigation in effect of low-calcium fly ash geopolymer concrete. International Journal of Engineering Research, 5(9), 762–767.

Abishek, G. L. (2017). Experimental study on behaviour of paper sludge concrete. Institute of Integrative Omics and Applied Biotechnology Journal (IIOABJ), 8(S3), 73–78.

Abishek, G. L., Murugesan, R., & Murugan, M. (2025). Performance analysis of aramid (Kevlar) fiber reinforced polymer wrapped concrete piles under lateral loads. Journal of Building Engineering, 106, 112336.

Abishek, G. L., Murugesan, R., & Murugan, M. (2025). Reliability and performance of CFRP-strengthened RC piles under static lateral loads: Enhancing durability and load-bearing capacity. Computers and Concrete, 36(3), 351–360.

Wensong Xu | Structural Mechanics of FRPs | Best Researcher Award

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Prof. Dr. Wensong Xu | Structural Mechanics of FRPs | Best Researcher Award

Associate professor at Anhui university of science and technology, China

Dr. Xu Wensong is a distinguished researcher and academician specializing in rock mechanics, safety engineering, and applied physics. Currently serving as an associate professor and master’s supervisor at Wuhan Institute of Technology, he has significantly contributed to the field of geotechnical engineering. His research primarily focuses on the mechanical properties of rock materials, energy evolution mechanisms, and safety assessment methodologies. Over the years, Dr. Xu has earned recognition for his pioneering studies in industrial safety, material behavior under stress, and engineering risk evaluation.

Profile

Scopus

Education

Dr. Xu Wensong obtained his Doctorate in Engineering, solidifying his expertise in rock mechanics and safety science. With a strong academic background in applied physics and material mechanics, he has developed a multidisciplinary approach to solving complex engineering problems. His educational journey has been instrumental in shaping his research interests and equipping him with the knowledge necessary to tackle real-world engineering challenges.

Experience

With extensive experience in academia and research, Dr. Xu has played a pivotal role in guiding graduate students and advancing studies related to rock mechanics. His teaching portfolio includes courses on Safety Management Science, Oil and Gas Safety Technology, and Engineering Mechanics, demonstrating his diverse expertise. As a mentor, he has supervised numerous postgraduate students, nurturing the next generation of engineers and researchers. He has also collaborated with multiple institutions and research organizations, contributing to national and international engineering projects.

Research Interest

Dr. Xu’s research is primarily centered around rock mechanics, energy evolution mechanisms, safety engineering, and industrial hazard analysis. His work delves into the impact of stress conditions on rock behavior, leading to innovative safety assessment models and experimental frameworks. His studies on the effects of unloading rate on energy evolution mechanisms in single-sided rock mass failure have been widely cited. His research contributions have enhanced the understanding of material stability and mechanical failure in industrial applications.

Awards and Recognitions

Dr. Xu Wensong has been the recipient of several awards and accolades, recognizing his outstanding contributions to the field of engineering safety and applied physics. Notably, he has received national and provincial-level awards for his research excellence, including distinctions for his innovations in safety science. His work in energy dissipation models and safety control mechanisms has earned him recognition in esteemed academic and professional circles.

Selected Publications

Dr. Xu has authored numerous high-impact research papers in reputable journals. Some of his notable publications include:

Xu Wensong, Zhao Guangming, Meng Xiangrui, Kao Siming, Huang Shunjie, Liu Chongyan (2020) – “Effects of Unloading Rate on Energy Evolution Mechanism in the Single-Side Unloading Failure of Highly Stressed Rock Masses,” Advances in Civil Engineering.

Xu Wensong, Wu Peng, and Li Zhen (2019) – “Energy Dissipation Mechanism of Deep Rock Mass Under High-Stress Conditions,” Journal of Rock Mechanics and Geotechnical Engineering.

Xu Wensong, Yang Jing, and Zhang Wei (2018) – “Triaxial Stress Impact on Rock Mass Behavior: A Study of Industrial Applications,” Journal of Mining Science.

Xu Wensong, Liu Bo, and Zhang Min (2023) – “Experimental Analysis of Rock Fracture Evolution in High-Pressure Environments,” Rock and Soil Mechanics.

Xu Wensong, Chen Hua, and Zhao Yi (2022) – “Numerical Simulation of Rock Failure in Underground Mining Conditions,” International Journal of Mining Science and Technology.

Xu Wensong, Li Feng, and Wang Rong (2021) – “Application of Micro-CT Imaging in Evaluating Rock Fracture Patterns,” Engineering Geology.

Xu Wensong, Wu Peng, and Zhang Hong (2023) – “Seismic Response of Deep Rock Masses: Insights from Laboratory Testing,” Tectonophysics.

Conclusion

Dr. Xu Wensong’s dedication to research, academic excellence, and industrial application makes him a perfect candidate for the Best Researcher Award. His high-impact publications, groundbreaking findings, mentorship, and leadership in engineering safety research establish him as a leading figure in geotechnical and safety engineering. Awarding him this honor would be a well-deserved recognition of his contributions to scientific and technological advancement.