Geotechnical Engineering Research Institute, Xi’an University of Technology | China
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🧩 Suitability Summary
Dr. Wang’s expertise directly addresses a major concern in infrastructure development—evaluating the vibration impact of self-falling heavy hammer drilling on surrounding structures. His innovative computational model, combined with field validation on the G8513 Highway from Wudu to Jiuzhaigou, makes his work highly relevant and practically valuable. He successfully quantifies damage levels to various house types based on distance from the vibration source, offering critical support for construction safety assessments. His real-world applicability and research originality make him a strong candidate for international recognition.
📘 Education & Experience
Dr. Guobing Wang is currently affiliated with the Geotechnical Engineering Research Institute at Xi’an University of Technology. His academic and professional journey revolves around geotechnical engineering with a specialized focus on soil dynamics, particularly the response of non-uniform and unsaturated soil under construction-induced vibrations. With hands-on experience from real-world highway projects, Dr. Wang bridges theoretical soil mechanics and practical engineering challenges, contributing significantly to the understanding of vibration effects in rural residential environments.
📈 Professional Development
Dr. Wang actively contributes to the scientific community through editorial roles in respected journals like Sound & Vibration and Global Science and Engineering. He is a member of international organizations such as the International Association for Applied Science and Technology (IAAST) and the Sound and Vibration Committee. He also participates in collaborative research, including a study on the vibration response of long-span continuous beam bridges under vehicle loads (Project No: 2024BWKY002). These roles reflect his commitment to academic excellence and interdisciplinary advancement.
🔬 Research Focus
His research targets the theoretical and practical challenges of construction-induced vibrations on complex soil structures. He developed a novel prediction method that integrates a non-homogeneous gradient factor into a logarithmic model of shear modulus variation with depth. By coupling impact force with site non-uniformity, and applying Hankel transform in the frequency domain, he solved a system of partial differential equations to analyze vibration attenuation. His findings show direction-dependent vibration amplitudes, and define damage thresholds for civil, brick, and frame structures, based on proximity. This pioneering method supports safe infrastructure design near residential zones.
🏆 Honors & Awards
Dr. Wang has submitted his research for the International Research Awards, recognizing his innovative contributions to evaluating vibration effects of pile driving on residential buildings. His work, validated through field experiments, holds both scientific merit and societal impact, helping protect rural housing during major infrastructure expansions.
📚 Selected Publication
Analysis of the effect of nonlocal factors on the vibration characteristics of Euler–Bernoulli nonlocal nanobeams on deformed foundations
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Authors: Guobing Wang, Rania Salih, Meshel Q. Alkahtani, Mohammad Mursaleen, Abdelfattah Amari, Haitham Osman, Qidong Niu, Chunjiang Li, Hadee Mohammed Najm
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Journal: Soil Dynamics and Earthquake Engineering
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Year: 2024
Vibration Response Analysis of Rammer Construction on Uneven Unsaturated Soil Sites
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Authors: Guobing Wang, Nadeem Abbas, Mohammad Arsalan Khan, Meshel Q. Alkahtani, Mohammad Mursaleen, Meiling Hua, Saiful Islam
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Journal: Journal of Vibration Engineering & Technologies
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Year: 2025
On vibration response of heavy hammer self-falling pile driver in uneven unsaturated soil – Experimental and analytical study
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Authors: Guobing Wang, Wei Liu, Ganggang Li, Meiling Hua
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Journal: Archive of Applied Mechanics
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Year: 2025