实验技术与管理2026,Vol.43Issue(3):91-97,7.DOI:10.16791/j.cnki.sjg.2026.03.012
井字形钢箱梁结构关键焊缝部位裂纹扩展实验研究
Experimental study on crack propagation in critical weld joints of grid-shaped steel box girder structures
谢永兰 1连青林 2金莹 1刘宝龙 2宋术伟 1王华吉 2闫松涛 1程明龙2
作者信息
- 1. 北京科技大学 国家材料服役安全科学中心,北京 100083
- 2. 北京航天发射技术研究所,北京 100076
- 折叠
摘要
Abstract
[Objective]A grid-shaped steel box girder structure serves as the core load-bearing component of ground support systems in a specific engineering project.It bears static support,fuel filling,and gas flow impact loads during service.Owing to the extensive number of structural welds and their concealed locations,weld cracks are inevitable during manufacturing,assembly,and usage.During actual inspection and maintenance,cracks are detected in various weld locations within the structural load-bearing core area.This core area comprises a two-way grid pattern of girders with complex stress conditions,making it difficult to assess crack propagation under high-intensity service conditions.Existing studies primarily employ an analytic hierarchy process or a finite element method to analyze the impact of cracks on structural reliability and service life.However,these studies did not investigate the propagation behavior of cracks under repeated operational loads,and their findings were not sufficiently validated by experimental data.[Methods]To assess the crack propagation behavior at critical weld joints under high-intensity service demands and ensure structural service safety,an experimental research approach was adopted.A 1:10 scaled-down model of a load-bearing core structure was designed based on similitude relationships.Six artificial defects were prefabricated at different weld locations within the load-bearing core area by introducing artificially created flaws,with two and four located in the compression and tension zones,respectively.Then,fatigue loading was applied by progressively increasing the load magnitude,resulting in the initiation of four initial cracks.Subsequently,crack propagation tests were conducted on the scaled-down model with these cracks under equivalent service loads.[Results]Test results indicate the following.(1)When the fatigue peak load was increased to three times the equivalent service load,fatigue cracks initiated from all prefabricated defects in the tension zone,whereas no cracks were observed in the compression zone throughout the process.(2)With twice the equivalent service fatigue loading,the cracks in base and vertical plates at support points#2 and#4 of the scaled-down model exhibited similar evolution characteristics.The crack growth rates in the lower sections of the vertical plates were consistently higher than those in the base plates,which aligns with the strain patterns measured during the prefabricated crack tests.(3)The propagation direction of all cracks was essentially perpendicular to the beam's longitudinal direction(i.e.,the tensile stress direction),indicating that the cracks were primarily in the opening mode.(4)The a-N curves of all propagating cracks demonstrated relatively stable linear characteristics,with the maximum growth rate recorded at 0.945 mm/103 cycles.[Conclusions]We proposed and validated the feasibility of using artificially prefabricated defects combined with stepwise increased fatigue loading to generate initial cracks in structural testing.The test results elucidated the propagation behavior of cracked structures at critical weld locations under equivalent service loads.This provides an experimental data reference for technicians to assess the service condition of the load-bearing core structure and forms a basis for optimizing structural inspection and maintenance strategies.关键词
钢箱梁结构/焊缝裂纹/裂纹扩展/扩展速率/a-N曲线Key words
box girder structure/weld crack/crack propagation/propagation rate/a-N curve分类
航空航天引用本文复制引用
谢永兰,连青林,金莹,刘宝龙,宋术伟,王华吉,闫松涛,程明龙..井字形钢箱梁结构关键焊缝部位裂纹扩展实验研究[J].实验技术与管理,2026,43(3):91-97,7.
