Mr. Yi Wang | Concrete – Post Doctorial at Hubei Water Resources Research Institute, china
Dr. Yi Wang is a dynamic postdoctoral researcher known for his cutting-edge contributions to construction materials science. With expertise in cementitious composites, structural durability, and sustainable building practices, Dr. Wang focuses on practical solutions for modern infrastructure challenges. His research seamlessly integrates material science, structural engineering, and environmental durability, making him a sought-after expert in areas such as void detection, shrinkage compensation, and termite-resistant grouting materials. Through his national and international academic journey, he has cultivated a global perspective, delivering impactful research that advances both theory and practice in civil engineering. π
π¬Academic Profile
π Education
Dr. Wang began his academic pursuit with a Bachelor of Engineering degree from Chongqing University (2011β2015), where he developed a foundational understanding of civil engineering principles. He then earned a Master of Science degree from Southeast University (2015β2017), deepening his focus on concrete mechanics and materials performance. Driven by a passion for durability-enhancing innovations, he continued with a PhD at the same institution (2017β2024). During his doctoral research, he completed a significant portion of his work as a joint doctoral scholar at Nagoya University in Japan (2020β2021), where he honed his experimental and analytical skills in an international research environment. πππ
π§ͺ Professional Experience
Currently, Dr. Wang serves as a Postdoctoral Research Fellow jointly appointed by Wuhan University and the Hubei Water Resources Research Institute (2025βpresent). In this role, he works at the intersection of academia and field application, addressing real-world challenges related to structural degradation, void formation, and the long-term sustainability of infrastructure. His work is supported by national and provincial grants, and he collaborates extensively with research peers and industry stakeholders. With experience in laboratory-scale experimentation and scaled-up validation studies, Dr. Wang demonstrates both research excellence and implementation impact. ποΈπ§π§βπ¬
π Research Interests
Dr. Wang’s primary research interests include concrete shrinkage compensation, void detection in steel tube concrete, termite-resistant grouting materials, and the mechanical performance of cementitious systems with expansive agents. A major focus of his work is the integration of environmentally responsive additives like azodicarbonamide to combat freeze-thaw damage and improve structural resilience. He is also deeply involved in the development of detection techniques for debonding in composite concrete systems, enabling better performance tracking and health monitoring. His work contributes significantly to the evolving landscape of sustainable construction materials and smart infrastructure systems. π§±ππ±
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Awards & Recognition
Dr. Wang has received funding support from esteemed organizations such as the National Natural Science Foundation of ChinaΒ and the Natural Science Foundation of Jiangsu Province. His project on inorganic polymer-based grouting materials for termite control has also been selected for research funding, showcasing his potential in applied innovation. Furthermore, his growing influence is recognized through his association with international academic platforms and memberships in research societies. ππ
π Selected Publications
Wang, Y. et al. (2025). Deformation and debonding detection of concrete-filled steel tube with expansive agent. Construction and Building Materials, 490, 142554. [Cited by: 12] π§±π
Wang, Y. et al. (2023). Freeze-thaw resistance of concrete containing azodicarbonamide expansive agent. Construction and Building Materials, 367, 130335. [Cited by: 18] βοΈπ§ͺ
Wang, Y. et al. (2023). Expansive deformation and mechanical properties of cementitious materials with azodicarbonamide expansive agent: influencing factors and mechanisms. Journal of Sustainable Cement-Based Materials, 12(9), 1141-1155. [Cited by: 21] ποΈπ
Wang, Y. et al. (2022). Experimental study on void detection in concrete under composite stress environments. Materials and Structures, 55, 89. [Cited by: 9] ππ§±
Wang, Y. et al. (2021). Durability performance of grouting materials enhanced with polymer agents. Journal of Building Engineering, 45, 103522. [Cited by: 15] π§ͺπ’
Wang, Y. et al. (2020). Termite resistance improvement in underground construction materials using inorganic polymer blends. Construction Science and Technology, 34(2), 77β84. [Cited by: 6] πποΈ
Wang, Y. et al. (2020). Development of composite additives for shrinkage control in mass concrete. Journal of Civil Materials, 22(5), 1012β1024. [Cited by: 8] π¬π
π Conclusion
Dr. Yi Wangβs contribution to construction materials research is both pioneering and highly relevant to the demands of modern infrastructure. His work addresses key challenges such as deformation control, environmental degradation, and structural integrity using intelligent material design and evidence-based research. Through his rigorous academic training, international exposure, successful grant awards, and impactful publications, Dr. Wang is well-positioned as a top contender for the Best Researcher Award. Recognizing his achievements would not only honor a talented young researcher but also inspire continued excellence in sustainable civil engineering innovations. π
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