新型防护结构抗爆性能及破坏机理

Ÿ   冲击波传播规律

Ÿ   冲击波与结构耦合作用机理

Ÿ   爆炸荷载作用下结构破坏模式

人工智能技术在结构抗爆中的应用研究

1. 国家自然科学基金面上项目，52278521，考虑爆炸作用下多柱初始损伤的钢框架结构连续倒塌机制，2023.01-2026.12，54万，在研，主持.

2. 同济大学高层次人才引进启动项目，2021.07-2026.06，200万，在研，主持.

3. 国家重点研发计划子课题， 跨阶段跨专业一体化协同建模原型系统与应用验证, 2022.11-2025.10，20万，在研，主持.

4. 同济大学“中德合作2.0”培育项目，中德工程结构智能抗爆设计，2024.06-2025.06，6万，在研，主持.

代表性期刊论文(*通讯作者)：

[1]  W. Xiao^* , M. Andrae, N. Gebbeken. Experimental and numerical investigations of shock wave attenuation effects using protective barriers made of steel posts. Journal of Structural Engineering 2018;144(11):4018204. DOI: 10.1061/(ASCE)ST.1943-541X.0002194 (JCR Q2，IF=4.1).

[2]   W. Xiao^*, M. Andrae, N. Gebbeken. Air blast TNT equivalence factors of high explosive material PETN for bare charges. Journal of Hazardous Materials 2019;377:152–62. DOI: 10.1016/j.jhazmat.2019.05.078 (JCR Q1，IF=13.6).

[3]   W. Xiao^*, M. Andrae, N. Gebbeken. Experimental and numerical investigations on the shock wave attenuation performance of blast walls with a canopy on top. International Journal of Impact Engineering 2019;131:123–39. DOI: 10.1016/j.ijimpeng.2019.05.009 (JCR Q1，IF=5.1).

[4]   W. Xiao^*, M. Andrae, N. Gebbeken. Experimental investigations of shock wave attenuation performance using protective barriers made of woven wire mesh. International Journal of Impact Engineering 2019;131:209–21. DOI: 10.1016/j.ijimpeng.2019.05.016 (JCR Q1，IF=5.1).

[5]   W. Xiao^*, M. Andrae, N. Gebbeken. Influence of charge shape and point of detonation of high explosive cylinders detonated on ground surface on blast-resistant design. International Journal of Mechanical Sciences 2020;181:105697. DOI: 10.1016/j.ijmecsci.2020.105697 (JCR Q1, IF=7.3).

[6]   W. Xiao^*, M. Andrae, N. Gebbeken. Air Blast TNT Equivalence Concept for Blast-Resistant Design. International Journal of Mechanical Sciences 2020;185C: 105871. DOI: 10.1016/j.ijmecsci.2020.105871 (JCR Q1, IF=7.3).

[7]   W. Xiao^*, M. Andrae, N. Gebbeken. Numerical study of blast mitigation effect of innovative barriers using woven wire mesh. Engineering Structures 2020;213:110574. DOI: 10.1016/j.engstruct.2020.110574 (JCR Q1，IF= 5.5).

[8]   W. Xiao^*, M. Andrae, N. Gebbeken. Effect of charge shape and initiation configuration of explosive cylinders detonating in free air on blast-resistant design. Journal of Structural Engineering 2020;146(8): 04020146. DOI: 10.1061/(ASCE)ST.1943-541X.0002694 (JCR Q2，IF=4.1).

[9]   W. Xiao^*, M. Andrae, N. Gebbeken. Numerical study on impulse reduction performance of protective barriers made of steel posts. Journal of Structural Engineering 2020; 146(10): 04020197. DOI: 10.1061/(ASCE)ST.1943-541X.0002782  (JCR Q2，IF=4.1).

[10] W. Xiao^*, M. Andrae, N. Gebbeken. Development of a new empirical formula for prediction of triple point path. Shock Waves 2020; 30: 677-686. DOI: 10.1007/s00193-020-00968-7 (JCR Q3，IF=2.2).

[11] W. Xiao^*, M. Andrae, N. Gebbeken. Untersuchung der Schutzwirkung von auf Gabionenwänden montierten Leitblechen gegen Explosionen. Bautechnik 2021;98(5): 365-378. DOI: 10.1002/bate.202000065 (JCR Q4, IF=0.7, 德文).

[12] W. Xiao^*, M. Andrae, M. Steyerer, N. Gebbeken. Investigations of blast loads on a two-storeyed building with a gable roof: Full-scale experiments and numerical study. Journal of Building Engineering 2021;43: 103111. DOI: 10.1016/j.jobe.2021.103111 (JCR Q1,  IF=6.4).

[13] 肖伟芳, 陈思琦, 赵宪忠*. 近距离爆炸作用下工字形截面钢柱荷载分布与动态响应数值模拟研究. 建筑结构学报, 2024,45(1):186-200.