Henan Polytechnic University - China
AUTHOR PROFILE
SUMMARY
Yaoqing Gong is a distinguished academic in civil and structural engineering, currently serving as Chair Professor at Henan Polytechnic University. With over four decades of teaching, research, and engineering practice, the expertise encompasses semi-analytical structural analysis, finite element modeling, and torsional analysis of complex structures. Editorial roles, committee memberships, and national-level research projects illustrate a strong reputation in academia. Recognized by leading institutions in China, including the Ministry of Education and National Natural Science Foundation, the work influences tall building mechanics and computational analysis. Extensive publications and involvement in conference proceedings highlight an active presence in both theoretical and applied engineering domains.
EDUCATION
Completed a Ph.D. in Civil Engineering at Tsinghua University, renowned for engineering excellence. Previously earned a Master’s degree in Mechanical Engineering from Huazhong University of Science and Technology and a Bachelor’s degree from Ningxia University. The academic progression reflects a deep foundation in engineering sciences, transitioning from mechanical to civil specializations. The multidisciplinary training has significantly shaped advanced research contributions in structural mechanics, particularly in analyzing super-tall buildings and complex beam structures. The educational journey through top-tier Chinese institutions has laid the groundwork for a highly productive academic and research career across decades in civil infrastructure development and modeling.
PROFESSIONAL EXPERIENCE
Began academic career as Assistant Lecturer at Ningxia University, progressing through Lecturer, Associate Professor, and Professor roles from 1981 to 2001. Since 2001, appointed as Chair Professor at Henan Polytechnic University, leading major initiatives in structural engineering. Held several key academic responsibilities, contributing to curriculum design and research mentorship. A strong connection with national academic bodies such as the Ministry of Education and NSF of China has ensured relevance and impact in teaching and applied research. Professional duties have also extended to evaluating high-level research proposals and participating in national engineering education committees, reflecting trust and leadership in the field.
RESEARCH INTEREST
Core research interests include semi-analytical methods for analyzing dynamic loads on super-tall buildings and long-span bridges, torsional behavior of noncircular beam sections, and structural interactions with elastic subgrades. Work is heavily focused on theoretical mechanics, generalized-area-coordinate systems, and conforming finite element formulations. Special emphasis is placed on dynamic load modeling and the interaction between foundation and superstructures, particularly under spatial or multi-directional loading. Research bridges practical civil infrastructure challenges with computational mechanics innovation, advancing knowledge in constrained torsion and spatial vibration of complex geometries. Integration of analytical theory and real-world applications characterizes all research endeavors and academic outputs.
AWARD AND HONOR
Honored with roles that reflect academic prestige, including Editorial Board Membership in the Journal of Engineering Mechanics (Chinese) and Committee Member of the Mechanics Instruction Committee, Ministry of Education, China. Selected as a referee for high-impact national research proposals under the Department of Engineering & Material Science, NSF of China. Contributions to national research projects and leadership in university-affiliated foundations also serve as testimony to recognition by peers. The ability to influence educational and research standards at national levels is a distinguishing achievement. These roles underscore trust, influence, and merit across China’s academic and engineering science communities.
RESEARCH SKILL
Expert in developing semi-analytical and finite element models for structural analysis under dynamic and complex boundary conditions. Advanced in formulating generalized conforming finite elements and utilizing generalized-area-coordinate systems. Skilled in solving torsional behavior for constrained, variable thickness beams with arbitrary noncircular shapes. Familiar with both theoretical development and application to large-scale infrastructure such as super-tall buildings and bridges. Possesses hands-on design experience, including work with steel tower structures for astronomical observatories. Capable of integrating analytical theory with field application, contributing both to academia and practical engineering. Strong background in mathematical modeling, ODE solvers, and high-performance structural analysis.
PUBLICATIONS TOP NOTED
Published in prestigious journals such as Composite Structures, Engineering Structures, European Journal of Mechanics/A Solids, and MethodsX. Key contributions include innovative constrained torsional analysis, theories for stocky beams with noncircular cross-sections, and finite element formulations for thick plate-shell elements. Authored books like “Structural Mechanics” and “Tall Building Structures on Elastic Subgrade,” which serve as foundational texts in Chinese structural engineering education. Presented work at global conferences including the World Congress on Computational Mechanics. Collaborated with notable researchers on interdisciplinary projects, ensuring international visibility. Research outputs continue to shape methodologies used in modern civil engineering and computational structural mechanics.
Title: Composite stocky box girders of variable thickness in high-support expressways: Constrained torsional analysis
Authors: [Not specified]
Journal: Engineering Structures (2021)
Title: An innovative method for surmounting the constrained torsional problems of stocky beams with arbitrary noncircular cross-sectional shapes and with arbitrary elastic material properties
Authors: [Not specified]
Journal: MethodsX (2021)
Title: The torsional centre position of stocky beams with arbitrary noncircular cross-sectional shapes and with arbitrary elastic material properties
Authors: [Not specified]
Journal: European Journal of Mechanics A: Solids (2021)
CONCLUSION
Yaoqing Gong’s contributions span theoretical development, practical design, high-level academic mentorship, and national-level advisory roles. Strong expertise in civil and structural engineering mechanics is demonstrated through sustained publications, impactful research funding, and leadership roles within Chinese engineering education. The emphasis on semi-analytical methods and computational mechanics provides critical solutions for modern engineering problems such as super-tall structures, complex torsional analysis, and elastic subgrade interaction. Through integration of teaching, research, and applied science, continues to influence both academic frameworks and infrastructure practices. The profile stands as a model of excellence in civil engineering innovation, research integrity, and academic leadership.