工学博士
zhiyuanyang2021@yahoo.com;zhiyuanyang@ntu.edu.cn;
杨致远,男,博士。2025年毕业于东南大学土木工程博士学位。近五年在Sustain. Mater. Techno.、Comput. Struct.、Constr. Build. Mater.、Eur. J. Mech. A-Solid.、J. Environ. Manage.等高水平期刊上发表一作SCI论文14篇,其中包括中科院一区论文11篇,ESI高被引论文3篇;论文累计被引650余次(谷歌学术),单篇最高被引96次,H指数15;参与“十四五国家重点研发项目:低碳生态乡村设计建造关键技术研发与应用示范”、“江苏省重大科技专项:低碳未来建筑关键技术研究与工程示范”等科研项目5项;参与制订CECS标准《道路应急抢修用低碳地聚物混凝土技术规程》;获得“江苏省土木工程专业优秀毕业生”、“江苏省复合材料学会优秀学位论文”等奖励多项。
Ø研究方向
1.高耐久地聚物海工混凝土结构;
2.超高性能地聚物胶凝材料;
3.智能地聚物基材料(自感知&储能);
4.铁基形状记忆合金增强耐高温地聚物混凝土结构;
5.复合材料结构时变性能
Ø科研与学术工作经历
2026.03-至今南通大学交通与土木工程学院,讲师(校聘副教授)
2024.01-2025.01 新加坡国立大学建筑系
Ø社会兼职
担任国际期刊Frontiers in Built Environment客座编辑,以及Compos. Part B-Eng.、Appl. Math. Model.、Thin-Walled Struct.、Ceram. Int.等18个SCI期刊审稿人。
Ø科研项目
1.国家重点研发计划项目:农村基础设施综合防灾抗灾能力提升与灾后功能恢复技术研究(2024YFD1600404),2024-12至2027-11,350万,在研,参与;
2.江苏省自然科学基金面上项目:复材筋增强地聚物海洋混凝土宏-细观收缩徐变及时变模型研究(BK20231152),2023-9至2026-8,10万,在研,参与;
3.国家自然科学基金面上项目:界面滑移可控的新型铝肋复材筋先张预应力混凝土梁力学性能研究(52078127),参与;
4.江苏省碳达峰与碳中和创新科技专项资金“未来低碳排放建筑关键研究与示范项目(BE2022606),参与;
5.国家自然科学基金青年基金项目:温度-荷载作用下考虑损伤累积的FRP型材弯曲蠕变多尺度研究及蠕变全过程分析方法(52108220),参与;
Ø科研成果
[1]Z. Yang, F. Lu, X. Zhan, H. Zhu, B. Zhang, Z. Chen, H. Zhang, Mechanical properties and mesoscopic damage characteristics of basalt fibre-reinforced seawater sea-sand slag-based geopolymer concrete, Journal of Building Engineering 84 (2024) 108688. (ESI高被引,入选8次)
[2]Z. Yang, H. Zhu, Z. Dong, B. Zhang, Z. Chen, C. Zou, Stress-strain relationships and brittleness characteristic analysis for ternary blended marine geopolymer mortars prepared with seawater and sea-sand, Construction and Building Materials 450 (2024) 138642.
[3]Z. Yang, H. Zhu, B. Zhang, Q. Wang, P. Wu, T. Yang, Z. Dong, Predictive theoretical model for elastic modulus of marine geopolymer concrete: insights into micro-mesoscopic components and alkaline content effects, Comput. Struct. 316 (2025) 107876.
[4]Z. Yang, H. Zhu, B. Zhang, Z. Dong, G. Zhang, Fracture characteristics and microscopic mechanism of slag-based marine geopolymer mortar prepared with seawater and sea-sand, Constr. Build. Mater. 450 (2024) 138561.
[5]Z. Yang, Z. Chen, H. Zhu, B. Zhang, Z. Dong, X. Zhan, Efficient utilization of coral waste for internal curing material to prepare eco-friendly marine geopolymer concrete, J. Environ. Manage. 368 (2024) 122173.
[6]Z. Yang, R. Li, H. Zhu, B. Zhang, Z. Dong, X. Zhan, G. Zhang, H. Zhang, Synthesis of eco-sustainable seawater sea-sand geopolymer mortars from ternary solid waste: influence of microstructure evolution on mechanical performance, Sustainable Mater.Technol. (2024) e01056.
[7]Z. Yang, X. Zhan, H. Zhu, B. Zhang, R. Li, Z. Dong, H.W. Kua, Eco-sustainable design of seawater sea-sand slag-based geopolymer mortars incorporating ternary solid waste, Construction and Building Materials 431 (2024) 136512.
[8]Z. Yang, X. Zhan, H. Zhu, B. Zhang, F. Lu, Z. Dong, Mesoscopic investigation of the matrix pores and ITZ effects on the mechanical properties of seawater sea-sand coral aggregate concrete, Journal of Building Engineering (2024) 109375.
[9]Z. Yang, X. Zhan, H. Zhu, B. Zhang, P. Feng, H. Li, H.W. Kua, Performance-based alkali-activated seawater sea-sand concrete: Mixture optimization for mechanical, environmental, and economical objectives, Construction and Building Materials 409 (2023) 134156.
[10]Z. Yang, H. Zhu, F. Yu, P. Wu, H. Fang, Thermo-mechanical coupled behavior of laminated beams with temperature-dependent viscoelastic interlayers, European Journal of Mechanics - A/Solids 100 (2023) 105000.
[11]Z. Yang, H. Zhu, B. Zhang, Z. Dong, P. Wu, Short-term creep behaviors of seawater sea-sand coral aggregate concrete: An experimental study with Rheological model and neural network, Construction and Building Materials 363 (2023) 129786.
[12]Z. Yang, P. Wu, W. Liu, H. Fang, Analytical Solutions for Functionally Graded Sandwich Plates Bonded by Viscoelastic Interlayer Based on Kirchhoff Plate Theory, Int. J. Appl. Mechanics 12 (2020) 2050062.
[13]Z. Yang, P. Wu, W. Liu, Time-dependent behavior of laminated functionally graded beams bonded by viscoelastic interlayer based on the elasticity theory, Arch Appl Mech 90 (2020) 1457–1473.
[14]Z. Yang, P. Wu, W. Liu, Time-dependent characteristics of two-layer functionally graded plates adhesively bonded by a viscoelastic interlayer based on Kirchhoff plate theory, Mechanics 26 (2020) 478–485.
[15]H. Li, K. Gao, H. Liang, H. Zhu, Z. Yang, Q. Wang, An efficient out-of-distribution pixel-level crack detection framework using prior knowledge, J. Build. Eng. 94 (2024) 109827.
[16]B. Zhang, J. Cao, C. You, Z. Yang, H. Peng, Multi-scale insights into the distinctive toughening mechanisms of basalt fibers in seawater sea-sand geopolymer composites, Composites, Part B 311 (2026) 113290.
[17]G. Zhang, C. Wan, Z. Yang, L. Xie, S. Xue, Damage detection of civil structures based on hybrid optimization algorithm and combined correlation function of heterogeneous responses, Measurement 246 (2025) 116678.
[18]H. Pan, B. Zhang, J. Cao, Z. Yang, J. Chen, X. Zhao, H. Peng, Performance and alkalinity control in geopolymer coral aggregate concrete via experiments and machine learning, Sustainable Mater.Technol. 45 (2025) e01555.
[19]B. Zhang, H. Zhu, Z. Yang, Y.-R. Dong, BFRP bars reinforced geopolymer-based coral aggregate concrete beams with sustainable and high seawater erosion resistance: flexural durability, economic, and ecological analysis, Eng. Struct. 330 (2025) 119910.
[20]B. Zhang, Z. Yang, X. Jiang, H. Zhu, W. Wang, Y.-R. Dong, H. Peng, Flexural behavior of coral aggregate concrete beams reinforced with BFRP bars under seawater corrosion environments, Constr. Build. Mater. 447 (2024) 138091. https://doi.org/10.1016/j.conbuildmat.2024.138091. (ESI高被引)
Ø荣誉&奖励
[1]杨致远(1/1),博士研究生国家奖学金,中华人民共和国教育部,2024.
[2]杨致远(1/1),硕士研究生国家奖学金,中华人民共和国教育部,2021.
[3]杨致远(1/1),江苏省土木工程专业优秀毕业生,江苏省土木建筑学会,2021.
[4]杨致远(1/1),江苏省复合材料学会优秀硕士论文,江苏省复合材料学会,2022.
[5]杨致远(1/1),南京工业大学校优秀专业学位硕士学位论文,南京工业大学,2021.
Ø联系方式
邮箱:zhiyuanyang2021@yahoo.com;zhiyuanyang@ntu.edu.cn