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A platform for research: civil engineering, architecture and urbanism
Fracture in concrete-filled square hollow section to H-section joints under low-cycle loading
Abstract This article presents a simple engineering procedure to assess the fracture failure in the welded connection between a concrete-filled square hollow section and an open flange H-section, so as to enhance the ductility of the composite connection. This procedure predicates on an elliptical fracture envelope and a generalized yield model proposed and verified in previous studies. The experimental program compares the performance of a BASE specimen without openings in the flange of the connected H-section and two specimens (denoted as B1 and B2) with openings introduced near the connection. The numerically computed fracture index and yielding index for all specimens agree with the physical failure mechanisms observed in the test. This study demonstrates that openings in the flange of an H-section improve effectively the ductility of the highly stiffened connection between a concrete-filled tube and an open flange steel beam.
Highlights We apply a fracture envelope model to the weld materials in a steel connection. The experimental results confirm the validity of the proposed fracture index. The presence of opening enhances effectively the rotational capacity of the joints.
Fracture in concrete-filled square hollow section to H-section joints under low-cycle loading
Abstract This article presents a simple engineering procedure to assess the fracture failure in the welded connection between a concrete-filled square hollow section and an open flange H-section, so as to enhance the ductility of the composite connection. This procedure predicates on an elliptical fracture envelope and a generalized yield model proposed and verified in previous studies. The experimental program compares the performance of a BASE specimen without openings in the flange of the connected H-section and two specimens (denoted as B1 and B2) with openings introduced near the connection. The numerically computed fracture index and yielding index for all specimens agree with the physical failure mechanisms observed in the test. This study demonstrates that openings in the flange of an H-section improve effectively the ductility of the highly stiffened connection between a concrete-filled tube and an open flange steel beam.
Highlights We apply a fracture envelope model to the weld materials in a steel connection. The experimental results confirm the validity of the proposed fracture index. The presence of opening enhances effectively the rotational capacity of the joints.
Fracture in concrete-filled square hollow section to H-section joints under low-cycle loading
Wang, Wanzhen (author) / Qian, Xudong (author) / Yang, Baozheng (author)
Journal of Constructional Steel Research ; 101 ; 363-372
2014-06-02
10 pages
Article (Journal)
Electronic Resource
English
Fracture in concrete-filled square hollow section to H-section joints under low-cycle loading
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