Assoc. Prof. Dr ZhiDe Wang | Rock dynamics | Best Researcher Award

Assoc. Prof. Dr ZhiDe Wang | Rock dynamics | Best Researcher Award

Assoc. Prof. Dr. Zhide Wang is an expert in geotechnical and underground engineering, specializing in slope stability evaluation, tunnel stability analysis, and subway monitoring. He earned his Master’s degree (2008-2011) and Ph.D. (2011-2015) in Civil Engineering from Wuhan University of Technology. Since 2015, he has been a Senior Experimental Teacher and Deputy Director of the Experimental Center for Civil Engineering and Architecture. A national-registered civil engineer, he has led multiple research projects, published over 20 papers in international journals, and holds three invention patents. His research significantly contributes to infrastructure safety and geotechnical engineering advancements. 🚆🏗️📊

Assoc. Prof. Dr ZhiDe Wang, School of Civil Engineering and Architecture Wuhan University of Technology, China

Profile

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Education 🎓

Assoc. Prof. Dr. Zhide Wang holds advanced degrees in Civil Engineering with a strong focus on geotechnical and underground engineering. He earned his Master’s degree (2008-2011) in Bridge and Tunnel Engineering from Wuhan University of Technology, followed by a Ph.D. in Civil Engineering (2011-2015) from the same institution. His academic training provided a solid foundation for his research in slope stability, tunnel safety, and subway monitoring. His expertise in geotechnical engineering has enabled him to lead multiple research projects and contribute significantly to infrastructure safety and engineering innovations. 🚆🏗️📚

Experience 🏗️

Assoc. Prof. Dr. Zhide Wang has extensive experience in geotechnical and underground engineering, specializing in slope stability evaluation, tunnel stability, and subway monitoring. Since 2015, he has served as an Experimental Teacher and Senior Experimental Teacher at the School of Civil Engineering and Architecture, Wuhan University of Technology. In 2017, he became Deputy Director of the Experimental Center for Civil Engineering and Architecture. Over the years, he has led multiple research projects, contributed to major infrastructure developments, and holds national certification as a registered civil engineer (geotechnical) and constructor. His work has significantly influenced engineering safety and innovation. 🚆🏢📖

Research Focus 🔬

Assoc. Prof. Dr. Zhide Wang specializes in geotechnical and underground engineering, with a strong focus on stability evaluation of bedding rock slopes, tunnel stability analysis, subway monitoring, and rock dynamics. His research explores the mechanical behavior of geological formations, ensuring structural safety in underground construction and transportation systems. His work contributes to predicting and mitigating geological hazards, improving infrastructure resilience. Through advanced experimental techniques and field studies, he enhances the understanding of rock behavior under various environmental conditions, making significant contributions to modern civil and geotechnical engineering. 🚆🏢📊

Contributions 📊

Assoc. Prof. Dr. Zhide Wang played a crucial role in conceptualizing the research idea, providing technical support, and overseeing the instrumentation process. His expertise in geotechnical engineering and underground stability ensured the accuracy and reliability of experimental methods. As a supervisor, he guided the research progress, ensuring high-quality data collection and analysis. His contributions were vital in generating meaningful scientific findings, advancing knowledge in rock dynamics, tunnel stability, and subway monitoring. His leadership in research execution and innovation underscores his impact on civil and geotechnical engineering advancements. 🚆🌍📑

Publication 📄

Experimental Study on the Dynamic Properties of Granite with Filled Joints of Different Thicknesses
📖 Journal: Materials
📅 Publication Date: February 2025
👥 Authors: Zhide Wang, Jiaxing An, Yuanyou Xia, Yingying Si

This study provides valuable insights into rock dynamics, focusing on granite with varying joint thicknesses. The research enhances understanding of geotechnical stability, crucial for civil engineering and underground infrastructure projects. 🏗️🌍📑.

Mr Jiaxing An | Rock Dynamics | Best Researcher Award

Mr Jiaxing An | Rock Dynamics | Best Researcher Award

Mr. Jiaxing An is a master’s student at the School of Civil Engineering and Architecture, Wuhan University of Technology 🏗️. His research focuses on rock dynamics and landslide mechanics, with an emphasis on the dynamic response law of landslides along the bed 🌍. He has successfully published his research in Materials, demonstrating his ability to contribute valuable insights to geotechnical engineering 📖. His work enhances geological hazard assessments and infrastructure safety. With strong analytical skills, dedication to research, and a promising academic trajectory, Mr. An is emerging as a future leader in civil and environmental engineering 🚀.

Mr Jiaxing An, School of Civil Engineering and Architecture, Wuhan University of Technology, China

Profile

ORCID

Education 🎓

Mr. Jiaxing An is currently pursuing his master’s degree in Civil Engineering at the School of Civil Engineering and Architecture, Wuhan University of Technology 🏗️. His academic journey is focused on rock dynamics and landslide mechanics, where he has conducted extensive research on the dynamic response law of landslides along the bed 🌍. His dedication to scientific inquiry has led to the successful publication of his research in Materials, a prestigious international journal 📖. Through rigorous academic training and hands-on research experience, he is developing expertise in geotechnical engineering and geological hazard assessment 🚀.

Research Experience 📚

Mr. Jiaxing An has actively engaged in scientific research on rock dynamics, with a primary focus on the dynamic response law of landslides along the bed 🏔️. As a master’s student at Wuhan University of Technology, he has gained hands-on experience in experimental testing, data analysis, and geological modeling 📊. His research has been recognized through a publication in the journal Materials, demonstrating his ability to contribute valuable findings to the field of geotechnical engineering and disaster prevention 🌍. His dedication to landslide mechanics and rock behavior under extreme conditions sets the foundation for future contributions to civil and environmental engineering 🚀.

Contributions  📑

Mr. Jiaxing An played a leading role in his research on rock dynamics and landslide mechanisms 🏔️. He formulated the initial research idea, designed the experimental methodology, and conducted extensive data analysis 📊. His ability to independently execute the entire research process, from conceptualization to manuscript preparation, highlights his strong analytical and scientific skills ✍️. His findings, published in the journal Materials, provide critical insights into landslide dynamics, helping improve geotechnical hazard assessments and disaster mitigation strategies 🌍. His dedication and scientific rigor make him a key contributor to this field of study 🚀.

Research Focus 🏔️

Mr. Jiaxing An’s research centers on rock dynamics, with a particular focus on the dynamic response law of landslides along the bed ⛰️📉. His work explores the mechanical behavior of geological materials under dynamic conditions, helping to improve landslide prediction and disaster prevention 🌍⚠️. By integrating experimental analysis and data-driven modeling, he aims to enhance geotechnical stability assessments and optimize civil engineering safety measures 🏗️📊. His research contributes to better understanding the stress and deformation characteristics of rock formations, providing valuable insights for infrastructure resilience and environmental protection 🌱🏢.

Publication 📄

Experimental Study on the Dynamic Properties of Granite with Filled Joints of Different Thicknesses
📚 Journal: Materials
📅 Publication Date: February 21, 2025
✍️ Authors: Zhi-de Wang, Jiaxing An, Yuanyou Xia, Yingying Si

This study investigates the impact of joint thickness on the dynamic properties of granite, providing valuable insights for geotechnical engineering, rock mechanics, and disaster mitigation ⛰️⚡. The findings contribute to improving structural stability and underground construction safety 🏗️📊.