一、个人简介
姓名:李胜
籍贯:河北唐山
出生年月:1996年1月
职称/职务:讲师/研究生支部书记
所属学院:软件工程学院
最高学历:博士研究生
导师类别:院内协助导师
研究领域:高性能混凝土结构性能分析;机器学习赋能结构智能设计;纳米改性智能混凝土
电子邮箱:shengli@jxust.edu.cn
二、主要经历
2014年09月 - 2018年06月 哈尔滨工业大学,土木工程,学士学位;
2018年09月 - 2024年09月: 哈尔滨工业大学,土木工程,博士学位;
2024年11月 – 至今: 江西理工大学,工业软件学院,讲师
三、学术成果
1. 科研项目:
(1)多纤维协同增强与流变诱导取向调控的UHPC-CA受压性能提升及损伤演化机理,江西省自然科学基金青年项目,20252BAC200090,2025-2028,10万元,主持
(2)水泥基导电材料电热学性能增强机理研究,江西省职业早期青年科技人才培养项目,20252BEJ730223,2025-2030,20万元,主持
(3)基于人工神经网络的高性能混凝土受压力学行为预测,江西理工大学高层次人才科研启动项目,jxust-72,2025-2027,25万元,主持
(4)基于竹纤维/锂渣梯度内养护的UHPC自收缩调控与性能提升,国家自然科学基金面上项目,52578289,2026-2029,49万元,参与
(5)预应力混凝土结构高温持时性能与抗裂控制方法,国家重点研发计划项目子课题,2022YFC3801800,2022-2026,45万元,参与
(6)板柱节点破坏模式及地下车库无梁楼盖坍塌规律与防御,国家自然科学基金面上项目,52078162,2020-2024, 58万元,参与
(7)约束混凝土柱高强箍筋和混凝土局压区高强间接钢筋合理配置研究,国家自然科学基金面上项目,51678190,2016-2020, 62万元,参与
2.代表性论文:
(1)Li Sheng, Liu Shuo*, Wu Weiwei, Zheng Wenzhong, Zhong Yiwei, Tian Weichen. Local bearing capacity of steel fiber and spirals reinforced UHPC-CA: Mechanism analysis and calculation method[J]. Case Studies in Construction Materials, 2026, 24:e05706. (SCI收录)
(2)Li Sheng, Han Ge, Du Boshi, Jiang Zhisheng*, Sun Linqi*. Carbon emissions assessment of ultra-high performance concrete in construction industry: Calculation method and case study[J]. Energy and Buildings, 2025, 329:115260. (SCI收录)
(3)Li Sheng*, Zheng Wenzhong, Liu Shuo*, Tian Weichen. Local bearing capacity calculation model for UHPC-CA considering reinforcement and steel fiber confinements[J]. Structures, 2025, 76:108923. (SCI收录)
(4)Xu Ting, Li Sheng*, Chai Zheng, Yu Qiuming, Li Bo, Tian Weichen. Overcoming local compression challenges in UHPC-CA anchorage zones: A robust machine learning approach[J]. Materials Today Communications, 2025, 48:113646. (SCI收录)
(5)Li Sheng, Zheng Wenzhong*, Zhou Wei. Compressive failure mechanism of ultra-high performance concrete with coarse aggregates with orthogonal reinforcements for predicting the bearing capacity: Experimental and numerical investigation[J]. Engineering Fracture Mechanics, 2024, 298:109915. (SCI收录)
(6)Liu Shuo, Zheng Wenzhong*, Tang Wenlong, Hou Xiaomeng, Li Sheng*. Bond behaviour of ribbed steel bar and concrete at 24-h elevated temperatures: Experimental study and theoretical analysis[J]. Construction and Building Materials, 2024, 447:138116. (SCI收录)
(7)Liu Shuo, Zheng Wenzhong*, Wang Ying, Yu Zihao, Zhang Hongpeng, Li Sheng*. Comparative study on the compressive performance of NSC and HSC with preload under 24-hour high temperatures[J]. Construction and Building Materials, 2024, 443:137658. (SCI收录)
(8)Li Sheng, Zheng Wenzhong*, Zhou Wei, Jiang Zhisheng, Cui Yingnan. Local compression capacity of steel fiber reinforced ultra-high performance concrete containing coarse aggregate[J]. Composite Structures, 2023, 318:117084. (SCI收录)
(9)Li Sheng, Zheng Wenzhong*, Zhou Wei*, Wang Ying. Local compression capacity of ultra-high performance concrete containing coarse aggregate: Testing and calculation method[J]. Journal of Building Engineering, 2023, 76:107411. (SCI收录)
(10)Li Sheng, Zheng Wenzhong*, Zhou Wei, Li Ruisen, Qiu Xianyelin. Anchorage zone behavior and strength prediction of high‑performance concrete containing coarse aggregate confined with spirals[J]. Archives of Civil and Mechanical Engineering, 2023, 23(4):257. (SCI收录)
(11)Li Sheng, Zheng Wenzhong*, Zhou Wei, Wang Ying. General prediction models for local bearing capacity of concrete[J].KSCE Journal of Civil Engineering, 2023, 27:4865-4875. (SCI收录)
(12)Li Sheng, Zheng Wenzhong*, Zhou Wei*, Jiang Zhisheng, Wang Ying. Experiment and validation of local bearing capacity for reactive powder concrete confined with high-strength spirals[J]. Archives of Civil and Mechanical Engineering, 2022, 22(1):40. (SCI收录)
(13)Li Sheng, Zheng Wenzhong*, Xu Ting, Wang Ying. Artificial neural network model for predicting the local compression capacity of stirrups-confined concrete[J]. Structures, 2022, 41:943-956. (SCI收录)
(14)Li Sheng, Zheng Wenzhong*, Zhou Wei*, Fan Mengmei, Gai Liqi. Analysis of actual confinement provided by high-strength steel spirals in reactive powder concrete of anchorage zones[J]. Structural Concrete, 2021, 22(6):3526-3543. (SCI收录)
(15)Liu Shuo, Zheng Wenzhong*, Hou Xiaomeng, Su Zhiming, Li Sheng. Experimental and numerical study on the reinforcement-concrete bond properties at sustained sub-high temperatures[J]. Engineering Structures, 2025, 341:120825. (SCI收录)
(16)Zhang Lei, Li Ruisen, Li Sheng, Wang Han*, Fu Qiang. Mechanical strength and hydration characteristic of multiple common waste-blended cement-based materials cured by electric-induced heating curing under severely cold environments[J]. Materials, 2025, 18(14):3220. (SCI收录)
(17)Jiang Zhisheng, Zheng Wenzhong*, Wang Ying, Xu Chonghao, Li Sheng. Hole layout calculation method of reinforced concrete beam demolition with soundless chemical demolition agents: Experimental investigation[J]. Engineering Structures, 2023, 274:115174. (SCI收录)
(18)Jiang Zhisheng, Zheng Wenzhong*, Wang Ying, Li Sheng, Sun Linqi. Green demolition technology of reinforced concrete slab: Application of soundless chemical demolition agents and its evaluation system[J]. Structural Concrete, 2023, 24(4):4549-4564. (SCI收录)
(19)Jiang Zhisheng, Zheng Wenzhong*, Li Sheng, Sun Linqi, Xu Chonghao. Equation of hole arrangement for concrete beam demolition using soundless chemical demolition agent[J]. Journal of Building Engineering, 2022, 45:103311. (SCI收录)
(20)Hou Chongchi, Zheng Wenzhong*, Li Sheng, Wu Xiaohao. Experimental investigation of full-scale concrete columns confined by high-strength transverse reinforcement subjected to lateral cyclic loading[J]. Archives of Civil and Mechanical Engineering, 2020, 20(4):115. (SCI收录)
(21)樊梦玫, 郑文忠*, 李胜, 王英. 配置高强网格式间接钢筋的RPC局压承载力试验研究[J]. 建筑结构学报, 2023, 44(02):227-238. (EI收录)
(22)盖立琦, 郑文忠*, 李胜, 王英. 混凝土局压承载力计算方法深化研究[J]. 哈尔滨工业大学学报, 2021, 53(10):1-11. (EI收录)
(23)马新伟*, 李胜, 郭泽琛, 段建平. 构造柱混凝土免拆模板力学及应用性能研究[J]. 沈阳建筑大学学报, 2019, 35(4):594-604. (中文核心)
(24)李胜, 刘立磊, 王宇彤, 张晗, 杜博士, 马新伟*. 基于复合相变材料的室内自调温系统设计[J]. 新型建筑材料, 2018, 45(2):83-87+95. (中文核心)
3. 奖励与荣誉:
优秀本科毕业论文(设计)指导老师
四、教学与招生
1.主讲课程:
弹塑性力学及有限元、Python程序设计、工程测量
2.在读博、硕士人数:2人(协助指导)
3.已毕业博、硕士人数:0人
