基本信息:
姓名:朱兴吉
职称:副教授,硕士生导师
学历:工学博士
联系方式:zhuxingji@hit.edu.cn
主要学术成果:
截止目前,已以第一作者或通讯作者发表SCI论文20余篇,总影响因子90以上,论文总计被引用300余次(排名前三的引用次数分别为96、45、44);授权专利及软件著作权多项,并实现产业化。主持科研项目11项,经费到账252.8万元;其中,国家级项目1项,省部级重大项目1项,省部级一般项目2项。研发了一款盐碱环境下工业精密仪器微正压防腐设备,并配套发明了空气腐蚀负离子检测系统,已完成整机设备的标准化生产,通过ISO9001质量体系和ISO14001环境体系认证。培养硕士研究生十几名,多人已在哈工大等高校攻读博士学位,已推荐多名同学进入代尔夫特理工、新加坡国立大学、香港大学、香港科技大学、韩国科学技术院等高校继续深造。
学习工作经历:
09/2005 - 06/2009, 中国石油大学(华东),土木工程专业,工学学士
09/2009 - 06/2012, 中国石油大学(华东),结构工程专业,工学硕士
09/2012 - 08/2016, Korea University,结构工程专业,工学博士
08/2016 - 03/2017, Korea University,结构工程专业,博士后研究员(Research Professor)
03/2017 - 05/2023, 哈尔滨工业大学(威海),海洋工程学院,讲师
05/2019 - 05/2023, 哈尔滨工业大学(威海),海洋工程学院,硕士生导师
07/2023 - 至今, 江汉大学湖北(武汉)爆炸与爆破技术研究院,副教授,硕士生导师
主要研究方向:
(1)钢筋混凝土损伤精细模拟
(2)多场耦合下粒子迁移
(3)材料腐蚀劣化机理
主讲课程:
结构力学II、混凝土结构设计原理、有限单元法(研究生)。
学术兼职:
美国土木工程学会工程力学研究分会会员;亚洲混凝土联合会会员;韩国土木工程学会会员;韩国结构维修和检测研究学会会员;Corrosion Science, Construction and Building Materials, Computers and Concrete, Magazine of Concrete Research等期刊审稿人。
主持的科研项目:
[10] 爆破工程湖北省重点实验室基金开放基金:组合式钻地弹防护结构侵爆模拟及系统损伤研究,江汉大学,2022 - 2023,8万元,项目负责人;
[9] 中央引导地方科技发展资金:大型复杂海底隧道结构系统安全关键问题研究,山东省科学技术厅,2021 - 2022,140万元,项目负责人;
[8] 山东省自然科学基金面上:混凝土冻融后凝胶的水敏迁移重排和溶液胀迁效应对氯离子传输影响研究,山东省科学技术厅,2023 - 2025,10万元,项目负责人;
[7] 山东省自然科学基金博士项目:多因素同时作用下钢筋混凝土劣化耦合机理研究及数值软件开发,山东省科学技术厅,2018 - 2020,8万元,项目负责人;
[6] 国家自然科学基金联合基金合作研究课题: 地震断层运动及破坏作用的理论与实验硏究,2022 - 2024, 20万元,课题负责人;
[5] 中船重工集团725所基金:B10 铜镍合金海水管路含砂冲刷腐蚀仿真,中船重工,2018 - 2020,8万元,项目负责人;
[4] 山东枫润净化设备有限公司:以内力矩对梁结构进行加固及校正装置,2022.01-2022.12,5万元,项目负责人;
[3] 中央高校基本科研业务费专项资金资助:钢筋混凝土结构腐蚀全过程的多场耦合机理研究,HIT.NSRIF.2019080,哈尔滨工业大学,2019 - 2020,5万元,项目负责人;
[2] 校地共建重大项目:多劣化因素同时作用下沿海结构腐蚀耦合机理研究及数值软件开发,威海市科技局,2018 - 2019,14万元,项目负责人;
[1] 酸雨、碳化、冻融籍碱骨料反应对混凝土中氯离子输送影响机理研究,哈尔滨工业大学(威海),2018 - 2019,3万元,项目负责人。
学术论文(一作或通讯)
[22] 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.
[21] 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.
[20]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.
[19] Xingji Zhu, Kainian Jiang, Qingchen Liu, Lin Tang* (2021). An analytical method for the thermo-mechanics coupling study of thin-walled spherical shell structure. European Journal of Environmental and Civil Engineering.
[18] 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.
[17] Zhu, X. J.*, Dai, X., Tan, Y., Meng, Z. and Xu, L.(2021). Ingress of chloride ions with carbonation: Parameter estimation and analytical simplification. European Journal of Environmental and Civil Engineering 25(3): 387-408.
[16] Xingji Zhu, Xuerui Dai, Lu Liu*, Wenfeng Bian*, Longjun Xu, Zhaozheng Meng (2020). A simplified coupling model of carbonation and chloride ingress based on Stefan-like condition. European Journal of Environmental and Civil Engineering.
[15] 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.
[14] 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.
[13] 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.
[12] Zhu, X. J., 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.
[11] Zhu, X. J., 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.
[10] Chen,Z.X., Yan,X.Y.*, Wang,H., Zhu, X. J.*, and Spencer, K.F.(2018). Substructure Hybrid Simulation Boundary Technique Based on Beam/Column Inflection Points. Sustainability 10(8): 2655.
[9] Zhu, X. J., 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.
[8] Chen,Z.X., Wang,H.D., Wang,H., Jiang,H.B., Zhu, X. J.*, 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.
[7] Zhu, X. J., and Zi, G.* (2017). A 2D mechano-chemical coupling model for the simulation of reinforcement corrosion and concrete damage. Construction and Building Materials 137.
[6] Zhu, X. J., 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.
[5] Zhu, X. J., Zi, G.*, Cao, Z., and Cheng, X. (2016). Combined effect of carbonation and chloride ingress in concrete. Construction and Building Materials 110: 369-380.
[4] Zhu, X. J., 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.
[3] Zi, G.*, and Zhu, X. J. (2014). Asymmetric vibration of finger-type bridge expansion joint for design consideration. Engineering Structures 70(1): 53-62.
[1]朱兴吉,程旭东*,彭文山,Goangseup Zi,热应力作用下液化天然气储罐球形罐顶应力分布及裂缝形态, 石油学报, 2014(05), 993-1000.
[2]程旭东*,朱兴吉,LNG储罐外墙温度应力分析及预应力筋设计[J]. 石油学报, 2012(03), 499-505..
部分关键的专利及软件著作权
[1] 朱兴吉、赫美萍,以内力矩对梁结构进行加固及校正装置,CN201710405898.4,2019年,已授权并产业化;
[3] 徐龙军、朱兴吉、左涛,海洋环境下钢筋混凝土结构腐蚀劣化过程的无损评估系统,2022年;
[4] 朱兴吉、李华锋等,一种可除盐雾及强酸碱的空气滤芯,202221542705.2,2022年;
[3] 朱兴吉、陈思行,一种监测生产控制微环境的正压防腐设备,ZL202320186876.4,2023年;
[4] 朱兴吉、左涛、徐龙军,盐雾环境下工业精密仪器空气防腐设备控制系统,2021SR422403,2021年;
[5] 朱兴吉、徐龙军等,近海钢筋混凝土结构腐蚀劣化全过程及承载力预测软件,2019SR1295709,2019年;
[6] 朱兴吉,一种智能化自动识别式的中效及高效过滤器质量检测系统,2022SR0688354,2022年;
[7] 廖晟卿、朱兴吉,基于BIM的刚性接触网无轨施工装置,ZL202220388058.8,2022年;
[8] 左涛、朱兴吉,盐雾环境下工业精密仪器空气防腐设备控制系统,2021SR1422403,2021年;
[9] 陆世凡、廖晟卿、朱兴吉,近沿海盐雾区氯离子空气浓度检测设备控制系统,2021SR1422462,2021年。
荣誉与奖励:
公派博士优秀学术奖,国家留学基金委,2016.03,
