张永旺,男,山西朔州人,工学博士,博士后。国家一级注册消防工程师、一级注册建造师,中国建筑学会生物质材料与结构专业委员会委员、江苏省土木建筑学会竹木结构专业委员会委员。主要从事建筑结构火灾模拟与预测、火灾后结构耐火性能评估以及性能化防火安全设计等研究。在国内外期刊上发表学术论文20余篇,其中以第一和通讯作者发表SCI论文10余篇,申请发明和实用新型专利6项。主持国家自然科学青年基金项目1项、中国博士后科学基金项目1项、江苏省高等学校基础科学(自然科学)研究面上项目1项。
Ø 主要研究领域:
建筑结构空间火灾动力特性研究
木、竹结构耐火性能评估研究
木、竹结构性能化防火设计研究
Ø 受教育经历
2011/09-2015/06,山西大学,土木工程,工学学士
2015/09-2018/06,长安大学,结构工程,工学硕士
2018/09-2022/12,东南大学,土木工程,工学博士
Ø 研究工作经历
2022/12-2024/11,yl6809永利官网,yl6809永利官网,师资博士后
2025/03-至今, yl6809永利官网,yl6809永利官网,副教授(校聘)
Ø 承担的科研项目
项目名称、编号 | 项目来源 | 起止年月 | 负责内容 |
考虑结构材燃烧效应的木框架蔓延火灾动力特性及热力响应机理研究(52408539) | 国家自然科学基金青年项目 | 2025.01-2027.12 | 主持 |
蔓延火灾下高大空间木结构建筑温度场演化规律及性能化防火设计研究(2023M731650) | 中国博士后科学基金面上项目 | 2023.06-2024.12 | 主持 |
蔓延火灾下高大空间木结构建筑灾变机理研究(23KJB560015) | 江苏省高等学校基础科学(自然科学)研究面上项目 | 2023.07-2025.07 | 主持 |
Ø 代表性论文(按发表时间倒序)
[1] Zhang Y-W, Chen H-W, Cai X-P, Wan X-Y, Zhang X-F, Ou J-J, Ni W-B, Ji K-Q, Zou Z-J, Wang L. Research on damage quantitative evaluation of laminated bamboo lumber under realistic fire exposure. Construction and Building Materials, 2025, 473: 141093. (SCI收录,Top期刊,中科院一区)
[2] Zhang Y-W, Yuan Z-C, Zhang L, Zhang X-F, Ji K-Q, Ni W-B, Wang L. Experimental and theoretical study of fire resistance of steel slag powder concrete beams. Engineering Structures, 2025; 325: 119402. (SCI收录,Top期刊,中科院一区)
[3] Ni W-B, Fu T, Ji K-Q, Wu Q-Y, Sun Y-Y, Wang L, Zhang Y-W*. Estimation and research of the temperature field models of large space spherical mesh shell structures under localized fire. Applied Thermal Engineering, 2025, 258: 124554. (SCI收录,Top期刊,中科院一区)
[4] Zhang X-F, Wang X, Zhang Y-W, Chang X-Q, Shi Y, Li G-L, Wu Z-S. Flexural behavior of tunnel lining segment strengthened with BFRP grid-fiber reinforced geopolymer mortar. Structures, 2025, 74: 108490. (SCI收录,中科院二区)
[5] Zhang X-F, Wang X, Liang X-M, Zhang Y-W, Wu Z-S. Study on the factors influencing bending spalling failure in BFRP textile-reinforced concrete. Journal of Building Engineering, 2025, 99: 111468. (SCI收录,中科院二区)
[6] Zhang Y-W, Li L-Q, Zhang L, Zhang X-F, Ni W-B, Wang L. Quantitative study of thermal response of timber–concrete composite structures under traveling fire using energy equivalence method. Structural Design of Tall and Special Buildings, 2024; 33(18): e2190. (SCI收录,中科院三区)
[7] Zhang Y-W, Zhang X-F, Zhang R-Y, Ni W-B, Zhi W-T, Wang L. Fire and post-fire performance of unbonded semi-precast prestressed reinforced concrete beams. Engineering Structures, 2024, 308: 117961. (SCI收录,Top期刊,中科院一区)
[8] Zhang Y-W, Su Z-M, Ni W-B, Zhang X-F, Wang L. Experimental study and theoretical analysis of fire resistance properties of prestressed glued laminated timber beams. Construction and Building Materials, 2024, 424: 135967. (SCI收录,Top期刊,中科院一区)
[9] Zhang Y-W, Zhang X-F. Quantitative assessment of the extent of damage to timber structures during the full course of a real fire using the energy equivalence method. Journal of Building Engineering, 2024, 92: 109808. (SCI收录,中科院二区)
[10] Ni W-B, Wang X, Zhang R-H, Zhang Y-W, Wu Q-Y, Sun Y-Y, Wang L. Experimental research on the post-fire semi-rigid behavior of the glulam bolted joints with slotted-in steel plates. Case Studies in Construction Materials, 2024, 21: e03488. (SCI收录,中科院二区)
[11] Zhang X-F, Wang X, Liang X-M, Zhao C-F, Chen Z-Y, Zhang Y-W, Zhou J-Y, Wu Z-S. Experimental study and theoretical analysis on tensile properties of concrete reinforced with different polymer-impregnated basalt textiles. Journal of Building Engineering, 2024, 87: 109003. (SCI收录,中科院二区)
[12] Zhang Y-W, Zhi W-T, Zhang X-F, Ni W-B, Xu C, Xu Y-M, Wang L. Experimental and numerical study on the validity of the energy-based time equivalent method for evaluating the fire resistance of timber components exposed to travelling fires. Journal of Building Engineering, 2023, 76: 107169. (SCI收录,中科院二区)
[13] Ni W-B, Sun H-Y, Wang L, Zhang Y-W, Lu X, Wang S-J. Estimation and analysis of the cumulative energy damage model for precast concrete nonrectangular column frame structures. Structures, 2023, 58: 105529. (SCI收录,中科院二区)
[14] Zhang Y-W, Zhang X-F, Wang L. Experimental validation and simplified design of an energy-based time equivalent method applied to evaluate the fire resistance of the glulam exposed to parametric fire. Engineering Structures, 2022, 272: 115051. (SCI收录,Top期刊,中科院一区)
[15] Zhang Y-W, Wang L. Energy-based time equivalent method for evaluating the fire resistance of timber–concrete composite structures exposed to travelling fires. Structure and Infrastructure Engineering, 2022. (SCI收录,中科院三区)
[16] Zhang Y-W, Wang L, Chen L. Energy‐based time equivalent approach for evaluating the fire resistance of timber components exposed to realistic design fire curves. Structural Design of Tall and Special Buildings, 2021; 30(11): e1861. (SCI收录,中科院三区)
[17] Wang L, Zhang Y-W, Ho J-C-M, Lai M-H. Fatigue behaviour of composite sandwich beams strengthened with GFRP stiffeners. Engineering Structures, 2020, 214: 110596. (SCI收录,Top期刊,中科院一区)
Ø 联系方式
Email:zhangyongwang@njtech.edu.cn