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I received a bachelor's degree from Hunan University in 2014 and a doctoral degree from Tsinghua University in 2019. From July 2019 to Jan 2022, I was engaged in post-doctoral research in the Department of Civil Engineering of Tsinghua University, supported by the "Shuimu Scholar" project. I am an assistant professor at Beihang University. I mainly studied the seismic performance of concrete-encased concrete-filled steel tubular (CFST) structures under the whole life cycle, including the seismic performance of the concrete-encased CFST members, joints, and structures.
My research achievements have been applied to several large-span bridge projects, including the Ya'an Labajin Bridge with the world's highest pier (height 182.5m) in the 8-degree seismic fortified area, the Ya'an Heishigou Bridge, the Guangyuan Jialing River Bridge and other large-span bridges. I undertook the bearing capacity analysis of the world's largest Longtan Tianhu large-span bridge project as the main complete. A series of scientific research around this significant project has been carried out, such as the finite element analysis of the arch structure considering the constructional progress, the bearing capacity analysis of the arch structure after the long-term stage, the effective length analysis of the 600m span arch, the checking computations of the second stability bearing capacity on the critical section. The research results have been adopted by Guangxi Communications Design Group CO., LTD and successfully applied to guide this engineering practice. Based on the engineering practice, the proposed hysteretic model for concrete-encased CFST members and connection details were included in the "Technical Specification for Concrete-Encased Concrete-Filled Steel Tubular(CFST) Structures" (T/CECS 663-2020) of the China Association for Engineering Construction Standardization. The 'Concrete-encased CFST(concrete-encased concrete-filled steel tube) calculation and analysis software' copyright was included in five standards, including the "Technical Specification for Concrete-Filled Double Skin Steel Tubular Structures" (T/CCES 7-2020) of the China Civil Engineering Society and the "Technical Specification for Trussed Concrete-Filled Steel Tubular Hybrid Structures" (T/CECS 785-2020), "Technical Specification for Concrete-Filled Stainless Steel Tubular Structures" of the China Association for Engineering Construction Standardization. At present, I have participated in the national standard "Technical Standard for Concrete-Filled Steel Tubular Hybrid Structures"(GB/T 51446-2021) as the main complete. I have successfully transformed the research achievements to technical standards, which could help promote research development and provide technical support for similar engineering practices.
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THIN-WALLED STRUCTURES (2024): 111450
JOURNAL OF BUILDING ENGINEERING (2023): 107567-107567
Tubular Structures XVI - Proceedings of the 16th International Symposium on Tubular Structures, ISTS 2017,pp.341-348, (2018)
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