This paper presents an investigation on interaction equation between the required flexural strength, M, and the required shear strength, V, of cold-formed C-channels with web holes and bearing stiffeners. The primarily shear condition test was employed to study total 8 back to back lipped C channel sections of 95 and 100 mm depth when bearing stiffeners and circular holes were placed at center and both ends of specimens. The interaction equation were evaluated via Direct Strength Method, DSM, in accordance with the American Iron and Steel Institute for the design of cold-formed steel structural members, AISI 2007. A nonlinear finite element model was developed and verified against the test results in terms of failure buckling modes. It was concluded that the M-V interaction equation for specimens with web stiffeners was conservative where these specimens experienced plastic failure mode rather than local (Msl) or distortional (Msd) buckling mode. Moreover, the results indicated that proposed M-V interaction equation calculated by local buckling strength (Msl) adequately predicted the behavior of specimens with circular web holes.
Effect of web holes and bearing stiffeners on flexural-shear interaction strength of steel cold-formed C-channel sections / Faridmehr, Iman; Osman, Mohd Hanim; Tahir, Mahmood Md.; Razavykia, Abbas; Nejad, Ali Farokhi. - In: LATIN AMERICAN JOURNAL OF SOLIDS AND STRUCTURES. - ISSN 1679-7817. - ELETTRONICO. - 13:6(2016), pp. 1152-1166. [10.1590/1679-78252033]
Effect of web holes and bearing stiffeners on flexural-shear interaction strength of steel cold-formed C-channel sections
Razavykia, Abbas;Nejad, Ali Farokhi
2016
Abstract
This paper presents an investigation on interaction equation between the required flexural strength, M, and the required shear strength, V, of cold-formed C-channels with web holes and bearing stiffeners. The primarily shear condition test was employed to study total 8 back to back lipped C channel sections of 95 and 100 mm depth when bearing stiffeners and circular holes were placed at center and both ends of specimens. The interaction equation were evaluated via Direct Strength Method, DSM, in accordance with the American Iron and Steel Institute for the design of cold-formed steel structural members, AISI 2007. A nonlinear finite element model was developed and verified against the test results in terms of failure buckling modes. It was concluded that the M-V interaction equation for specimens with web stiffeners was conservative where these specimens experienced plastic failure mode rather than local (Msl) or distortional (Msd) buckling mode. Moreover, the results indicated that proposed M-V interaction equation calculated by local buckling strength (Msl) adequately predicted the behavior of specimens with circular web holes.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2698728
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