教育经历:
2013年9月至2018年6月,浙江大学,建筑工程学院,结构工程专业,博士(保送,直接攻读博士学位),师从中国科学院院士、高性能混凝土材料和结构领域知名学者徐世烺教授。
2009年9月至2013年6月,中南大学,土木工程学院,土木工程专业,学士。
奖励荣誉:
(1) 学术奖励
[1] 2023年十大网络赌博正规平台学科后备人才青年人才支持计划
[2] 2017年全国第十五届岩石混凝土断裂学术会议优秀研究生论文奖
(2) 个人奖励
[1] 获第四届全国土木工程专业青年教师教学研讨会“智能建造”教学研讨说课大赛二等奖
[2] 2016年浙江大学优秀研究生
[3] 2012年湖南省优秀毕业生
[4] 2010年国家奖学金
[5]获全国老员工英语竞赛一等奖、湖南省老员工物理竞赛一等奖等
(3) 学科竞赛
作为第一指导老师带领员工获2023全国数字建筑创新大赛(一级赛事)二等奖
研究方向:长期专注于高性能绿色混凝土新材料研究,主要包括:智能建造的3D打印混凝土材料与结构关键技术、基于数字孪生技术的智能混凝土、高性能纤维水泥基复材损伤断裂多尺度机理、准脆性材料的损伤断裂新算法等。
研究成果:
先后主持国家自然科学基金青年项目、山西省基础研究计划青年项目、中国博士后科学基金面上项目等。在工程材料和结构工程领域的顶级/权威SCI期刊发表论文20余篇。现为中国大坝工程学会大坝混凝土与岩石断裂力学专业委员会委员,历任多本国际知名学术期刊审稿人。
代表性论文:
[1] Zhang H(张慧), Huang Y J*, Xu S L, Natarajan S, Yao F. An explicit methodology of random fibre modelling for FRC fracture using non-conforming meshes and cohesive interface elements. Composite Structures, 2023, 310: 116762. (中科院1区TOP; IF 6.3)
[2] Zhang H(张慧), Huang Y J*, Xu S L, Hu X J*, Zheng Z S. 3D cohesive fracture of heterogeneous CA-UHPC: a mesoscale investigation. International Journal of Mechanical Sciences, 2023, 249: 108270. (中科院1区TOP; IF 7.3)
[3] Zhang H(张慧), Huang Y J, Lin M, Yang Z J*. Effects of fibre orientation on tensile properties of ultra high performance fibre reinforced concrete based on meso-scale Monte Carlo simulations. Composite Structures, 2022, 287: 115331. (中科院1区TOP; IF 6.3)
[4] Zhang H(张慧), Huang Y J*, Yang Z J*, Guo F Q, Shen L H. 3D meso-scale investigation of ultra high performance fibre reinforced concrete (UHPFRC) using cohesive crack model and Weibull random field. Construction and Building Materials, 2022, 327: 127013. (中科院1区TOP; IF 7.4)
[5] Zhang H(张慧), Huang Y J*, Hu X J*, Xu S L. A quasi-brittle fracture investigation of concrete structures integrating random fields with the CSFEM-PFCZM. Engineering Fracture Mechanics, 2023, 281: 109107. (中科院2区; IF 5.4)
[6] Zhang H(张慧) Huang Y J, Guo F Q, Yang Z J*. A meso-scale size effect study of concrete tensile strength considering parameters of random fields. Engineering Fracture Mechanics, 2022: 108519. (中科院2区; IF 5.4)
[7] Zhang H(张慧), Huang Y J, Yang Z J*, Xu S L, Chen X W. A discrete-continuum coupled finite element modelling approach for fibre reinforced concrete. Cement and Concrete Research, 2018, 106: 130-134. (中科院1区TOP; IF 11.4)
[8] Hai L, Wriggers P, Huang Y J*, Zhang H*(张慧), Xu S L. Dynamic fracture investigation of concrete by a rate-dependent explicit phase field model integrating viscoelasticity and micro-viscosity. Computer Methods in Applied Mechanics and Engineering, 2024, 418: 116540. (中科院1区TOP; IF 7.2)
[9] Huang Y J, Natarajan S, Zhang H*(张慧), Guo F Q*, Xu S L, Zeng C, Zheng Z S. A CT image-driven computational framework for investigating complex 3D fracture in mesoscale concrete. Cement and Concrete Composites, 2023, 143: 105270. (中科院1区TOP; IF 10.5)
[10] Zeng C, Zheng Z S*, Huang Y J, Zhang H*(张慧). Chloride-induced 3D non-uniform corrosion of steel in reinforced concrete considering mesoscale heterogeneities and early-age cracks. Construction and Building Materials, 2023, 409: 133778. (中科院1区TOP; IF 7.4)
[11] Huang Y J, Yang Z J, Zhang H*(张慧), Natarajan S*. A phase-field cohesive zone model integrated with cell-based smoothed finite element method for quasi-brittle fracture simulations of concrete at mesoscale. Computer Methods in Applied Mechanics and Engineering, 2022, 396: 115074 (中科院1区TOP; IF 7.2)
[12] Huang Y J, Zhang H*(张慧) Zhou J J, Xu S L. Efficient quasi-brittle fracture simulations of concrete at mesoscale using micro CT images and a localizing gradient damage model. Computer Methods in Applied Mechanics and Engineering, 2022, 400: 115559. (中科院1区TOP; IF 7.2)
[13]黄宇劼, 张慧*, 高超*, 徐世烺. 考虑纤维取向特征的超高性能混凝土三维细观断裂.硅酸盐学报, 2024, 1-15. (EI)
[14]Zeng C, Zheng Z S*, Zhang H(张慧), Huang Y J*, Wang X. Effects of steel bar and bi-directional erosion on chloride diffusion in reinforced concrete: A 3D mesoscale study. Construction and Building Materials, 2023, 409: 133886. (中科院1区TOP)
[15]Zeng C, Zheng Z S*, Zhang H(张慧), Huang Y J*, Wang X, Liu G. 3D mesoscale investigation of non-uniform steel corrosion in reinforced concrete under chloride environments.Construction and Building Materials, 2024, 411: 134273. (中科院1区TOP)
欢迎对3D打印混凝土/高性能绿色建材/数字孪生技术等研究方向感兴趣、对科研训练/学科竞赛/毕业设计有热情的研究生、本科生加入!