Zhejiang University of Technology, Civil Engineering College, China
Dr. Tongyuan Ni is a Senior Engineer in the College of Civil Engineering at Zhejiang University of Technology. He holds a Doctorate in Engineering from the College of Materials at the same university and has more than two decades of experience in civil engineering and materials science. He specializes in high-performance concrete materials, green building materials, and concrete crack detection. 🌍🏗️
Publication Profile
Education
Dr. Ni’s academic journey began at Zhejiang University of Technology, where he graduated in 1994 with a degree in Road and Bridge Engineering. He later earned a Master’s degree in Civil and Architectural Engineering in 2005 from the same institution. In 2020, he obtained his PhD in Engineering from the College of Materials at Zhejiang University of Technology. 🎓📚
Experience
Dr. Ni has worked extensively in the field of civil engineering, leading projects related to the development of ecological paving materials, as well as advanced crack detection technologies. His projects include the development of permeable ecological paving materials and technologies for sludge ceramsite and innovations in crack detection in bridge structures. He currently contributes to both academic research and industry applications. 🔧🔍
Awards and Honors
Dr. Ni has received several prestigious awards, including recognition for his work in developing environmentally friendly building materials and technologies. His research contributions in the areas of concrete materials and crack detection have earned him numerous accolades within academic and engineering communities. 🏆🎖️
Research Focus
Dr. Ni’s research focuses on high-performance concrete materials, green building materials, and concrete crack detection and control. He has been involved in numerous projects, including the development of smart technologies for structural monitoring and sustainable materials. 🌱🏗️
Conclusion
Dr. Ni’s extensive experience and innovative research in the field of civil engineering, particularly in concrete technology, make him a leading expert in the development of sustainable and high-performance building materials. His contributions continue to advance the understanding and application of ecological and smart materials in construction. 🏙️📈
Publications
Chemical activation of pozzolanic activity of sludge incineration ash and application as raw bonding materials for pervious ecological brick (2022), Construction and Building Materials, IF=6.141
Study on Properties of Composite Cementitious Materials Compounded with Cement and Sludge Incineration Ash (2022), Journal of Building Materials, EI
Measurement of concrete crack feature with android smartphone APP based on digital image processing techniques (2020), Measurement, IF=3.927
Research on Detection of Concrete Surface Cracks Based on Smartphone Image (2021), Acta Metrologica Sinica
Research progress of bridge fracture detection technology based on image processing technology (2019), Urban Roads and Bridges and Flood Control
Interface reinforcement and a new characterization method for pore structure of pervious concrete (2021), Construction and Building Materials, IF=6.141
Influences of Environmental Conditions on the Cracking Tendency of Dry-Mixed Plastering Mortar (2018), Advances in Materials Science and Engineering, SCI, JCR Q4
Experimental Study on Early-Age Tensile Creep of High Strength Concrete under Different Curing Temperature (2018), Journal of Building Materials
Early-Age Tensile Basic Creep Behavioral Characteristics of High-Strength Concrete Containing Admixtures (2019), Advances in Civil Engineering, SCI, Q3
An Investigation of the Influence of Paste’s Rheological Characteristics on the Tensile Creep of HVFAC at Early Ages (2025), Materials, IF=3.257