sejong kim | Engineering | Best Researcher Award

Posted on 13/10/202513/10/2025 by Phenomenological Research Awards

Dr. Sejong Kim | Engineering | Best Researcher Award

Department of Civil Engineering at Hongik University | South Korea

Dr. Sejong Kim is a distinguished researcher in civil and structural engineering, recognized for his advanced work on the durability and corrosion behavior of reinforced concrete structures in aggressive environments. His academic background is rooted in civil engineering, where he has developed a strong foundation in material science, electrochemistry, and infrastructure sustainability. Over the course of his academic and professional journey, Dr. Sejong Kim has focused on the interplay between carbonation and chloride-induced corrosion in steel reinforcements, applying both experimental and theoretical approaches to address the pressing challenges of structural degradation. His doctoral research and subsequent projects have led to the development of novel electrochemical and gravimetric assessment methods that provide deeper insight into the corrosion mechanisms of steel rebar, thereby enhancing the predictive accuracy of service life models for concrete structures. He has actively collaborated with research teams and industry professionals to develop corrosion monitoring systems and durability evaluation models for marine and urban infrastructure. His scholarly contributions include publications in high-impact journals such as Construction and Building Materials, Corrosion Science, and Buildings (MDPI), reflecting the scientific and practical relevance of his findings. In addition to his research, Dr. Sejong Kim has served as a reviewer for prominent international journals and has participated in interdisciplinary projects aimed at developing sustainable construction materials and smart corrosion monitoring technologies. His research interests encompass reinforced concrete durability, chloride and carbonation-induced deterioration, electrochemical monitoring, and the design of eco-efficient materials for infrastructure resilience. Through his commitment to advancing the field, Dr. Sejong Kim has contributed significantly to the understanding of corrosion mechanisms and the formulation of durability design standards that support long-term sustainability in civil infrastructure. His ongoing work continues to bridge the gap between laboratory innovation and real-world application, promoting safer, more durable, and environmentally conscious engineering practices that align with the future of sustainable urban development.

Profile: Orcid | Sciprofile

Featured Publications:

Kim, S., & Choi, J. K. (2025). Electrochemical and Gravimetric Assessment of Steel Rebar Corrosion in Chloride- and Carbonation-Induced Environments. Buildings.
Kim, H.; Yang, S.; Noguchi, T.; Yoon, S. (2023). An Assessment of the Structural Performance of Rebar-Corroded Reinforced Concrete Beam Members. Applied Sciences, 13(19), 10927.

Yuezhao Pang | Engineering | Best Researcher Award

Posted on 17/09/202517/09/2025 by Phenomenological Research Awards

Dr. Yuezhao Pang | Engineering | Best Researcher Award

Engineer at Marine Design and Research Institute of China | China

Dr. Yuezhao Pang is a highly accomplished structural engineer at the Marine Design and Research Institute of China with a Ph.D. in Mechanics, whose expertise centers on impact dynamics, composite materials, and the development of advanced metal and non-metallic sandwich structures. His academic foundation and research journey reflect a commitment to understanding mechanical responses, energy absorption, and failure mechanisms under impact loading, combining both multi-scale experimentation and numerical simulations to address complex engineering problems. Professionally, he has completed five major research projects, engaged in three consultancy and industry-linked initiatives, and contributed significantly to the field through innovative solutions aimed at structural protection and crashworthiness, with applications in aerospace, transportation, and industrial safety. His research interests extend to dynamic and static compression of closed-cell PVC foams, exploring material properties under varying strain rates to design lightweight protective structures with improved resilience. Dr. Yuezhao Pang has produced a notable body of work with 17 publications indexed in reputed databases, amassing 139 citations by 136 documents with an h-index of 7, reflecting the quality and relevance of his research contributions. In addition, he has secured five patents that bridge the gap between theoretical advancements and practical applications, underscoring his strength in innovation-driven engineering. His research skills encompass advanced materials testing, computational modeling, mechanical characterization, and cross-disciplinary collaborations, making him a versatile and impactful researcher. While he has not yet accumulated extensive professional memberships, his strong collaborations and project outputs demonstrate leadership potential and dedication to advancing the field. Recognized for his significant contributions, Dr. Yuezhao Pang stands as a deserving recipient of research honors, and his future trajectory indicates immense promise in expanding global collaborations, enhancing high-impact publications, and shaping protective engineering solutions that benefit both academia and industry.

Profile: Scopus

Fuetured Publications:

Pang, Y., Wang, C., Zhao, Y., & Wang, X. (2025). Strain‐Rate Effects on the Mechanical Behavior of Basalt-Fiber-Reinforced Polymer Composites: Experimental Investigation and Numerical Validation. Materials, 18(15).
Pang, Y. (2022). Experimental study of basalt fiber/steel hybrid laminates: Low‐velocity impact characteristics with different lay-up structures. International Journal of Impact Engineering.

Xize Dai | Engineering | Best Academic Researcher Award

Posted on 26/08/202526/08/2025 by Phenomenological Research Awards

Dr. Xize Dai | Engineering | Best Academic Researcher Award

Postdoctoral Research Fellow at Unversity of Queensland | Australia

Dr. Xize Dai is a distinguished Postdoctoral Research Fellow at the University of Queensland, Australia, specializing in high-voltage insulation and dielectric physics. His work has centered on advancing the reliability of polymer insulation systems, particularly within renewable energy and power electronics applications. Through extensive research into degradation mechanisms and advanced diagnostic techniques, he has built a strong international reputation in insulation science. Recognized for his academic excellence and technical expertise, he has actively contributed to both experimental studies and theoretical modeling, bridging the gap between material behavior and system-level reliability in modern energy applications.

Profile:

Google Scholar

Education:

Dr. Xize Dai earned his Ph.D. in Energy from Aalborg University, Denmark, where his doctoral research focused on dielectric dynamics and equivalent circuit modeling of polymer insulation under multifrequency stress conditions. He also pursued advanced studies as a visiting researcher at the University of Bologna in Italy, where he refined his expertise in high-field dielectric spectroscopy and partial discharge characterization. Prior to this, he obtained his Master’s degree in Electrical Engineering at Chongqing University, China, with a thesis on thermal degradation of submarine cable insulation, and a Bachelor’s degree in Smart Grid and Information Engineering at Liaoning Technical University.

Experience:

Dr. Xize Dai’s professional experience spans leading research institutions and industry collaborations. He has worked on projects addressing degradation mechanisms, condition monitoring, and modeling of insulation materials for renewable energy applications. His tenure as a visiting researcher at Khalifa University provided exposure to photovoltaic system diagnostics and advanced insulation methodologies. Collaborations with globally recognized experts at Bologna, Oxford, and Khalifa University enriched his expertise in multiphysics modeling and advanced dielectric testing. Additionally, his engagement with IEEE as an active member of the Dielectrics and Electrical Insulation Society reflects his dedication to international research exchange and technical community service.

Research Interests:

Dr. Xize Dai’s research lies at the intersection of dielectric physics, material science, and renewable energy. His interests include investigating high-performance insulation materials for power systems, with a focus on polymeric and heterogeneous composites. He explores aging mechanisms and degradation processes under combined electrical, thermal, mechanical, and environmental stresses. His expertise extends to dielectric and impedance spectroscopy, partial discharge analysis, and multiphysics simulations using finite element methods. By developing advanced equivalent circuit models and health monitoring frameworks, he aims to enhance predictive maintenance and digital twin applications, ensuring greater efficiency, safety, and sustainability in high-voltage energy infrastructure.

Awards and Honors:

Dr. Xize Dai has been recognized with numerous academic honors for his exceptional contributions to high-voltage engineering and insulation research. His work has earned prestigious national scholarships and merit-based academic awards during his Bachelor’s and Master’s studies, reflecting his consistent academic excellence. His Master’s thesis was recognized with an award for outstanding research on insulation aging behavior. He has also received international research funding to support overseas collaborations and has been invited as a session chair, technical committee member, and keynote speaker at international conferences. These honors reflect his global recognition as an emerging leader in his field.

Publications:

Title: Multi-dimensional analysis and correlation mechanism of thermal degradation characteristics of XLPE insulation for extra high voltage submarine cable
Citation: 49
Year of Publication: 2021

Title: Synergistic enhancement effect of moisture and aging on frequency dielectric response of oil-immersed cellulose insulation and its degree of polymerization evaluation using …
Citation: 43
Year of Publication: 2021

Title: Physical mechanism analysis of conductivity and relaxation polarization behavior of oil-paper insulation based on broadband frequency domain spectroscopy
Citation: 36
Year of Publication: 2021

Title: Ageing state identification and analysis of AC 500 kV XLPE submarine cable based on high-voltage frequency dielectric response
Citation: 32
Year of Publication: 2020

Title: High-voltage frequency domain spectroscopy analysis of a thermally aged XLPE submarine cable under continuous and cyclic voltage based on carrier transport and polarisation …
Citation: 18
Year of Publication: 2022

Title: Influence of thermal ageing on high-field polarisation characteristics and conductivity behaviour of submarine polymeric cables insulation
Citation: 17
Year of Publication: 2023

Title: Unraveling High Temperature-Induced Glass Transition Effect on Underlying Multitimescales Dynamic Mechanisms of Epoxy Resin Insulation in Power Electronic Applications
Citation: 3
Year of Publication: 2024

Conclusion:

Dr. Xize Dai has established himself as a highly accomplished researcher at the forefront of electrical insulation and renewable energy studies. Through innovative modeling approaches, advanced diagnostic methods, and impactful collaborations, he has significantly contributed to enhancing the reliability of high-voltage systems. His work directly supports the integration of renewable energy technologies with safer and more efficient insulation materials. Recognized by leading international scholars and organizations, Dr. Xize Dai continues to push the boundaries of dielectric physics and insulation science. His academic rigor, professional service, and global collaborations make him a strong candidate for this award.

Shuai Li | Engineering | Best Researcher Award

Posted on 02/01/202502/01/2025 by Phenomenological Research Awards

Dr. Shuai Li | Engineering | Best Researcher Award

Lecturer at Henan University of Urban Construction, China.

🌍Dr. Shuai Li is a lecturer at Henan University of Urban Construction, specializing in civil engineering disaster prevention and mitigation. He earned his Ph.D. in Engineering Mechanics from Northeastern University in 2017. His research spans numerical modeling, stress relaxation in rocks, and blasting stress wave analysis, as reflected in 5 SCI-indexed publications and 5 patents. Dr. Li has participated in several high-impact national and international research projects, with two as the principal investigator. Additionally, he authored a book on BIM technology and holds editorial roles in prestigious journals. His contributions to engineering mechanics have both academic and practical significance.

Profile👤

Education 🎓

🎓Dr. Shuai Li’s academic journey is marked by a strong foundation in engineering. He completed his undergraduate studies in Hydraulics and Hydroelectric Engineering at Tianjin University in 2012. Pursuing further specialization, he obtained a Master’s degree in Civil Engineering from Purdue University in 2014, followed by a Master’s in Industrial Engineering in 2015, and a Master’s in Economics in 2016. In October 2017, Dr. Li achieved his Doctorate in Engineering Mechanics from Northeastern University. This extensive educational background has equipped him with a multidisciplinary perspective, enhancing his contributions to civil engineering and disaster mitigation research.🎓📚

Experience

🩺Dr. Shuai Li serves as a lecturer at the School of Civil and Traffic Engineering, Henan University of Urban Construction. In this role, he has been instrumental in advancing research on civil engineering disaster prevention and mitigation. Dr. Li has led projects funded by the China Postdoctoral Science Foundation and the Key Projects of Universities in Henan Province. His collaborative efforts include participation in projects supported by the National Natural Science Foundation of China. Additionally, Dr. Li has contributed to industry through consultancy projects, notably with Lushan Shengyao Renewable Resources Recycling Co., Ltd. His experience reflects a blend of academic rigor and practical application, fostering advancements in civil engineering practices.🧑‍🔬📈

Awards and Honors 🏆

Dr. Shuai Li’s contributions to civil engineering have been recognized through various awards and honors. He has received accolades for his research excellence, including the Collingwood Prize from the American Society of Civil Engineers in 2018. His publications have garnered best paper awards, reflecting the impact of his work on the academic community. Dr. Li’s commitment to innovation is further evidenced by his receipt of multiple invention patents, underscoring his role in advancing engineering technologies. These honors highlight Dr. Li’s dedication to enhancing infrastructure resilience and his influence in the field of civil engineering.🏅🌍

Research Interests 🔬

🔬Dr. Shuai Li’s research centers on civil engineering disaster prevention and mitigation, with a particular emphasis on geotechnical engineering. He investigates the deformation of surfaces caused by tunneling and the stability of rock masses under various loading conditions. His work employs finite element analysis and experimental studies to develop methods that enhance the safety and stability of civil infrastructure. Dr. Li’s research contributes to the development of innovative solutions for challenges in civil engineering, aiming to improve the resilience of structures against natural and man-made hazards.🔬🧬

Conclusion

Dr. Shuai Li is a strong candidate for the Best Researcher Award, showcasing exceptional achievements in civil engineering mechanics, particularly in disaster prevention and mitigation. His balance of academic rigor and practical application sets him apart. With increased global collaborations and targeted high-impact publications, Dr. Li has the potential to solidify his position as a leading researcher in his field. Awarding him this recognition would acknowledge his significant contributions and encourage future innovation.

Publications Top Notes

Influence of dynamic disturbance on the creep of sandstone: an experimental study

Authors: W. Zhu, S. Li, S. Li, L. Niu

Citations: 64

Year: 2019

Experimental and numerical study on stress relaxation of sandstones disturbed by dynamic loading

Authors: W. Zhu, S. Li, L. Niu, K. Liu, T. Xu

Citations: 29

Year: 2016

Experimental study on creep of double-rock samples disturbed by dynamic impact

Authors: S. Li, W. Zhu, L. Niu, K. Guan, T. Xu

Citations: 16

Year: 2021

Time-frequency distribution analysis of the stress relaxation of sandstones affected by dynamic disturbance

Authors: S. Li, W.C. Zhu, T. Xu, R.X. He

Citations: 3

Year: 2019

Numerical Modeling on Blasting Stress Wave in Interbedding Rheological Rockmass for the Stability of the Main Shaft of Mine

Authors: S. Li, C. Zheng, Y. Zhao

Citations: 2

Year: 2022

An Experimental Study on Stress Relaxation of Yunnan Sandstone

Authors: S. Li, C. Zheng, P. Li

Citations: 1