Prof. Jianfeng Zhu | Geotechnical engineering | Best Researcher Award

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Jianfeng Zhu | Geotechnical engineering | Best Researcher Award

Jianfeng Zhu | School of Civil Engineering and Architecture/ Zhejiang University of Science and Technology | China

Dr. Jianfeng Zhu 👨‍🏫 is a distinguished Professor at Zhejiang University of Science and Technology in China 🇨🇳, leading geotechnical engineering research. A recipient of prestigious titles like Zhejiang University leading talent and Ningbo high-level talent 🏆, his work centers on innovative low-carbon reinforcement in geotechnical engineering 🌱. With over 70 publications, including 30+ SCI papers and several monographs 📚, he actively contributes to the academic community. He serves on committees like the World Transportation Congress (WTC) and the Zhejiang Province Soil Mechanics and Geotechnical Engineering Academic Committee 🌍. Dr. Zhu also lends his expertise as a reviewer for numerous esteemed civil engineering journals ✍️.

Professional Profile : 

scopus

Summary of Suitability :

Dr. Zhu demonstrates a strong profile as a researcher through his leadership in geotechnical engineering, focus on innovative and relevant low-carbon solutions, significant publication record in reputable journals, active engagement in the academic community through committee memberships, and contribution to the field as a journal reviewer. His prestigious recognitions further underscore his impact and standing in the research community.

Education :

Work Experience :

  • Professor/Doctoral Tutor, Zhejiang University of Science & Technology (11/2021-Present) 👨‍🏫
  • Associate Professor/Doctoral Tutor, Zhejiang University of Science & Technology (11/2019-10/2021) 🧑‍🏫
  • Associate Professor, Ningbo University (11/2015-10/2019) 🏢
  • Visiting Scholar, Griffith University (Australia) (10/2016-09/2017) 🇦🇺
  • Lecturer, Ningbo University (03/2011-10/2015) 🗣️

Professional Development :

Dr. Zhu actively engages in the global geotechnical engineering community. He presented a special report at the 4th International Academic Exchange Conference on Marine Geotechnical Engineering 🗣️ and served as a Special Issue Editor for 《Sustainability》 📝. His strong reviewing and editing skills are evident through his contributions to numerous top-tier journals in civil engineering, including 《Applied Mathematical Modelling》, 《Construction and Building Materials》, and 《Ocean Engineering》, demonstrating his commitment to maintaining high scholarly standards and fostering knowledge dissemination in the field 📚.

Research Focus :

Dr. Zhu’s primary research focus lies in the realm of low-carbon reinforcement of geotechnical engineering 🌱. His work delves into innovative and sustainable methods for improving soil stability and infrastructure development. This includes investigating the use of industrial by-products like steel slag, fly ash, and calcium carbide residue for soil stabilization ♻️. 1 He also explores the mechanical behavior of soils under various environmental and construction loadings, particularly in marine environments, addressing challenges related to soft clays, coastal embankments, and the impact of waves and tunneling 🌊. His research aims to promote environmentally friendly and efficient solutions in geotechnical engineering practices 🌍.   

Publication Top Notes : 

Title: The curing mechanism and empirical model for the marine organic soft clay stabilized with calcium carbide residue and silica fume under the optimal ratio

Authors: J. Zhu, Jianfeng; Q. Zheng, Qiqi; Y. Tao, Yanli; B. Pan, Binjie; Z. Wang, Zheng–qing
Journal: Acta Geotechnica, 2025
Summary: This study investigates the stabilization of marine organic soft clay using a binary binder system consisting of calcium carbide residue (CCR) and silica fume. The research aims to elucidate the curing mechanism at an optimal mix ratio and to develop an empirical model that predicts the strength behavior of the treated soil. Emphasis is placed on mechanical performance improvements and microstructural transformations due to the chemical reactions between soil particles and stabilizers.

Title: Experimental study of the strengthening efficiency of engineering waste sludge using electro-osmosis

Authors: Y. Tao, Yanli; Z. Yu, Zeyi; J. Zhu, Jianfeng; J. Zhou, Jian; K. Li, Kaiqiang
Journal: Hydrogeology and Engineering Geology, 2025
Summary: This experimental research explores the use of electro-osmosis as a remediation and strengthening method for engineering waste sludge. The study analyzes how electric fields influence the consolidation and strength gain of the waste sludge, evaluating parameters such as water content reduction, current flow behavior, and soil resistivity. The findings are relevant for environmentally conscious ground improvement techniques, especially in managing construction-related sludge.

Title: Experimental study on the stabilization of marine soft clay as subgrade filler using binary blending of calcium carbide residue and fly ash

Summary: This paper focuses on utilizing calcium carbide residue and fly ash as a dual stabilizing agent to treat marine soft clay intended for subgrade applications. The experiments assess physical and mechanical properties such as unconfined compressive strength, compaction behavior, and long-term durability. The goal is to provide an effective, sustainable alternative to traditional soil stabilization methods by repurposing industrial by-products.