Essential information:
Name: Zhu Xingji
Education: Doctor of Engineering
Title: Associate Professor
Contact: zhuxingji@hit.edu.cn
Main academic achievements:
Published more than 20 SCI papers as the first author or corresponding author, with an impact factor of 110 or above, and the papers have been cited more than 300 times by others; Authorized more than ten patents and software copyrights, and achieved industrialization; Hosted 13 scientific research projects; Among them, there is 1 national level project, 1 provincial and ministerial level major project, and 3 provincial and ministerial level general projects. We have developed an industrial precision instrument micro positive pressure anti-corrosion equipment for saline alkali environments, and have also invented an air corrosion negative ion detection system. The standardized production of the entire equipment has been completed, and it has passed ISO9001 quality system and ISO14001 environmental system certification. We have trained more than ten master's students, many of whom have already pursued doctoral degrees at universities such as Harbin Institute of Technology. We have recommended several students to continue their studies at universities such as Delft Institute of Technology, National University of Singapore, University of Hong Kong, Hong Kong University of Science and Technology, Korea University, and Korea Academy of Science and Technology.
Study experience:
09/2005-06/2009, China University of Petroleum (East China), Civil Engineering, Bachelor of Engineering
09/09-06/2012, China University of Petroleum (East China), Structural Engineering, Master of Engineering
09/2012 - 08/2016, Korea University, Structural Engineering, Doctor of Engineering (funded by a national high-level public project)
Work experience:
09/2016 - 03/2017, Korea University,Research Professor
03/2017-06/2023, Harbin Institute of Technology (Weihai), College of Ocean Engineering
07/2023 present, Jianghan University, Hubei (Wuhan) Institute of Explosion and Blasting Technology
Main research direction:
(1) Fine numerical simulation of material damage
(2) Particle migration under multi field coupling
(3) Corrosion and deterioration mechanism of materials
Main course:
Finite Element Method (Graduate), Civil Engineering Numerical Simulation Technology (Graduate), Structural Mechanics II, Principles of Concrete Structure Design, Foundation Pit Engineering.
Academic part-time jobs:
Member of the Engineering Mechanics Research Branch of the American Society of Civil Engineers; Member of the Asian Concrete Federation; Member of the Korean Society of Civil Engineering; Member of the Korean Society for Structural Maintenance and Testing Research; Reviewer for journals such as Corrosion Science, Construction and Building Materials, Computers and Concrete, Magazine of Concrete Research, etc.
Hosted research projects:
[1] Central guidance for local scientific and technological development funds, 2021-2022.142 million yuan, project leader;
[2] Joint Research Project of National Natural Science Foundation of China, 2022-2024, 200000 yuan, project leader;
[3] General Natural Science Foundation of Hubei Province, Department of Science and Technology of Hubei Province, 2024-2025, 50000 yuan, project leader;
[4] General Natural Science Foundation of Shandong Province, Department of Science and Technology of Shandong Province, 2023-2025, 100000 yuan, project leader;
[5] Doctoral Program of Natural Science Foundation of Shandong Province, Department of Science and Technology of Shandong Province, 2018-2020, 80000 yuan, project leader;
[6] China Railway Fourth Survey and Design Institute, 2024-2025, 900000 yuan, project leader;
[7] Open Fund of Hubei Provincial Key Laboratory of Blasting Engineering, 2022-2023, 80000 yuan, project leader;
[8] China Shipbuilding Industry Corporation 725 Fund, CSIC, 2018-2020, 80000 yuan, project leader;
[9] Shandong Fengrun Purification Equipment Co., Ltd., January 2022 December 2022, 50000 yuan, project leader;
[10] Basic Research Funds for Central Universities, Harbin Institute of Technology, 2019-2020, 50000 yuan, project leader;
[11] Major project of school land joint construction, Weihai Science and Technology Bureau, 2018-2019, 140000 yuan, project leader;
[12] Jianghan University's research backbone research start-up fund, 300000 yuan, project leader;
[13] Harbin Institute of Technology (Weihai) Innovation Project, 2018-2019, 30000 yuan, project leader.
Academic paper (first author or corresponding author)
[27] Cheng Xudong, Guo Yanxiang, Zhu Xingji, Li Wenxuan, Hu Wenjun, Xu Longjun, (2025). Analytical study on additional stress field of double shield TBM tunneling based on Mindlin theory. Applied Mathematical Modelling.
[26] Sun Lianfang, Zhu Xingji, Wang Yujin, Zhao Guochen (2025). Effect of exposure conditions on alkali-silica reactions in glass incorporated mortars: Importance of sodium ion. Materials Letters.
[25] Zhu Xingji, L. Xu*, P. Wu, C. Xiao, Y. Wang, S. Lin, J.i Zhao (2024). Failure mode of passive film under electric field and chloride environment in concrete. Construction and Building Materials.
[24] Lin Shibin, Ashlock JC, Zhu LM, Qin ZX, Li B, Zhu Xingji*, Zhai CH (2024). Effect of trigger system on experimental dispersion characteristics of active surface wave testing. Earthquake Engineering and Engineering Vibration.
[23] Xingji Zhu, Wenshan Peng*, Changrong Xiao, Li Ma, Jian Hou* (2023). Effect of electric field intensity on chloride binding capacity of concrete. Journal of materials research and technology.
[22] Xu Longjun, Wu Pangang*, Zhu Xingji*, Zhao Guochen, Ren Xiulian, Wei Qifeng, Xie Lili (2022). Structural characteristics and chloride intrusion mechanism of passive film. CORROSION SCIENCE.
[21]Qingchen Liu, Lianfang Sun, Xingji Zhu*, Longjun Xu, Guochen Zhao (2022). Chloride transport in the reinforced concrete column under the marine environment: Distinguish the atmospheric, tidal-splash and submerged zones. Structures.
[20] Xingji Zhu, Kainian Jiang, Qingchen Liu, Lin Tang* (2022). An analytical method for the thermo-mechanics coupling study of thin-walled spherical shell structure. European Journal of Environmental and Civil Engineering.
[19] Xudong Cheng*, Runkang Huang, Lingyue Xu, Chuan Ma, Xingji Zhu* (2021). Parametric study on the trench designing for X80 buried steel pipeline crossing oblique-reverse fault. Soil Dynamics and Earthquake Engineering.
[18] Zhu Xingji*, Dai, X., Tan, Y., Meng, Z. and Xu, L.(2022). Ingress of chloride ions with carbonation: Parameter estimation and analytical simplification. European Journal of Environmental and Civil Engineering 25(3): 387-408.
[17] Xingji Zhu, Xuerui Dai, Lu Liu*, Wenfeng Bian*, Longjun Xu, Zhaozheng Meng (2021). A simplified coupling model of carbonation and chloride ingress based on Stefan-like condition. European Journal of Environmental and Civil Engineering.
[16] L.-Fang Sun, Kainian Jiang, Xingji Zhu*, Longjun Xu (2020). An alternating experimental study on the combined effect of freeze-thaw and chloride penetration in concrete. Construction and Building Materials 252: 119025.
[15] Xingji Zhu,Zhaozheng Meng,Lu Liu*,Longjun Xu (2020). An equivalent smeared layer method for simulating the non-uniform corrosion-induced damage of concrete. Engineering Fracture Mechanics 224: 106791.
[14] Lu Liu, Yue Liu, Xingji Zhu* (2019). Evaluation of nonlinear displacement of self-centering structures with metallic energy dissipaters by considering the early yield of the energy dissipating system. Soil Dynamics and Earthquake Engineering 125: 105757.
[13] Zhu Xingji, Zi, G.*, Sun, L.F. and You, I. (2019). A simplified probabilistic model for the combined durability of carbonation and chloride ingress. Magazine of Concrete Research 71(7):327-340.
[12] Zhu Xingji, and Zi, G.* (2017). A 2D mechano-chemical coupling model for the simulation of reinforcement corrosion and concrete damage. Construction and Building Materials 137.
[11] Zhu Xingji, Zi, G.*, Lee, W., Kim, S., and Kong, J. S.(2017). Probabilistic analysis of reinforcement corrosion due to the combined action of carbonation and chloride ingress in concrete. Construction and Building Materials 124: 667-680.
[10] Zhu Xingji, Zi, G.*, Cao, Z., and Cheng, X. (2016). Combined effect of carbonation and chloride ingress in concrete. Construction and Building Materials 110: 369-380.
[9] Zhu Xingji, Kim, S., Kwak, D., Bea, K., and Zi, G.*(2016). Parametric analysis for the simultaneous carbonation and chloride ion penetration in reinforced concrete sections. Journal of the Korea Institute for Structural Maintenance and Inspection. 2016, 20 (5): 66-74.
[8] Zi, G.*, and Zhu Xingji (2014). Asymmetric vibration of finger-type bridge expansion joint for design consideration. Engineering Structures 70(1): 53-62.
[7] Zhu Xingji, C. Zhao, L. Xu*, Y. Wang*, S. Lin and G. Zhao(2024). Numerical Integration Study of Penetration and Blasting Damage for Composite Underground Protective Structure with Reinforcement Layers. BUILDINGS 14, 1848.
[6] Zhu Xingji, Chen, Z.X.*, Wang, H., Chen, Y. and Xu, L.(2018). Probabilistic generalization on a comprehensive model for the deterioration prediction of RC structure under the extreme corrosion environment. Sustainability 10(9): 1-17.
[5] Chen,Z.X., Yan,X.Y.*, Wang,H., Zhu Xingji*, and Spencer, K.F.(2018). Substructure Hybrid Simulation Boundary Technique Based on Beam/Column Inflection Points. Sustainability 10(8): 2655.
[4] Zhu Xingji, Meng, Z., Liu, Y., Xu, L.,and Chen, Z.* (2018). Entire process simulation of corrosion due to the ingress of chloride ions and CO2 in Concrete. Advances in Materials Science and Engineering.
[3] Chen,Z.X., Wang,H.D., Wang,H., Jiang,H.B., Zhu Xingji*, and Wang,K.(2018). Application of the hybrid simulation method for the full-scale precast reinforced concrete shear wall structure. Applied Sciences-BASEL 252(8): 1-17.
[1]Zhu Xingji,Xudong Cheng*,Wenshan Peng,Goangseup Zi,Stress distribution and crack morphology on the top of spherical liquefied natural gas storage tanks under thermal stress, Journal of Petroleum,2014(05), 993-1000.
[2] Xudong Cheng*,Zhu Xingji, Analysis of Temperature Stress on the Outer Wall of LNG Storage Tanks and Design of Prestressed Reinforcement [J]. Journal of Petroleum, 2012(03), 499-505.
