高强度钢框架梁柱节点焊接构造的断裂性能试验研究

EXPERIMENTAL STUDY ON THE WELD FRACTURE BEHAVIOR OF HIGH STRENGTH STEEL BEAM-TO-COLUMN CONNECTIONS

  • 摘要: 为研究高强度钢材焊缝连接在实际节点构造中的断裂性能,选取代表实际梁柱节点局部焊接构造的十字型焊接接头试件,采用对接熔透焊和角焊缝两种焊缝类型,完成了20个高强度钢材典型焊接构造在单调拉伸和往复加载下的断裂性能试验,研究了高强钢焊接构造断裂机理,探讨了焊缝类型、荷载类型及钢材强度对典型构造细节断裂性能的影响。研究结果表明,焊缝类型对高强钢焊接构造断裂性能有较大影响,拉-卸载作用导致高强钢焊接节点热影响区材料损伤开裂,往复加载幅值越大,高强钢焊接节点的缺陷敏感性越大,越容易发生断裂失效。试验得到对接熔透焊和角焊缝试件在单调拉伸和往复加载下的断裂临界伸长量和临界荷载,为发展高强度钢材节点焊缝区域的断裂分析模型提供依据。

     

    Abstract: To investigate the fracture behavior of high strength steel (HSS) welded joints in practical engineering, 20 typical HSS cruciform welded joints that represent the local weld regions of practical beam-to-column connections were tested under monotonic and cyclic loading. Two weld types, that is, the complete penetration butt welded joint and fillet welded joint, were adopted. The fracture mechanisms of HSS welded joints were investigated. The effects of weld type, load type and steel strength on the fracture behavior of HSS welded joints were analyzed. The results indicate that the weld type has a large effect on the fracture behavior of welded joints. The tension-unloading effects result in material damage and cracks in the heat affected zone. The HSS welded joints are more prone to fracture failure under cyclic loading of larger ranges. The fracture loads and elongations of the tested coupons were obtained, which can provide basis for developing fracture prediction model of welds in HSS connections.

     

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