Low cycle fatigue failure of steel moment connections with finger shaped cover plates

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GHASSEMIEH M.; Afzalan M.

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Journal Paper

Paper Information

Journal: Modares Civil Engineering journal Year:2020 | Volume:20 | Issue:5 Page(s): 153-164

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Information Journal Paper

Title

Low cycle fatigue failure of steel moment connections with finger shaped cover plates

Author(s)

GHASSEMIEH M. | Afzalan M. | Issue Writer Certificate

Keywords

Low cycle fatigue

steel moment connections

cyclic void growth model

finite element analysis

Abstract

Following Northridge earthquake, wide spread brittle cracking had been observed in steel moment connection, and this, was in contrast with the philosophy of designing steel moment frames which accounts for dissipating energy by forming plastic hinges at beams. This situation led to the development of improved connections to make them less prone to brittle fracture. However, studies have shown that these new connections, typically known as post Northridge connections, can still have the tendency to fracture but in a ductile manner when subjected to ultra Low cycle fatigue loading. Ultra Low cycle fatigue loading consists of limited cycles of loading with large amplitude which induce strains that are several times greater than yielding. Searching the literature, varied methods have been proposed to predict cracking in ductile steel for both monotonic and cyclic loading. In this research, a micro mechanical model called cyclic void growth model has been applied to predict the instance and location of cracking in the steel structure. For the purpose of predicting the Low cycle fatigue failure, finger shaped steel moment type connections with top and bottom cover plates which their experimental data were available, used as a benchmark study. A micro mechanical model is integrated into the ABAQUS finite element program in order to simulate crack initiations in the cover plate welded beam to column connection. For this purpose, a Fortran code is linked with the ABAQUS software for simulating the crack and specifically to predict when and where the crack initiates. By understanding the crack initiation and the location of this crack, a trend line for Low cycle fatigue under various constant drift angels are put together. The trend line provides a number of cycles for the crack to initiate by applying the specific drift angle. Therefore, a finite element model of a cover plate welded moment connection was developed and was used in order to simulate cracking in the connection model. Thus, each crack location and the number of cycles to initiate the crack were detected. Utilizing cyclic void micro mechanical model of growth analysis, which is a technique to predict fracture in a ductile material, different cover plate connections were modeled in the steel moment frame, and then their critical points to trigger the crack were identified. Finally, for the finger shaped cover plate moment connection, considering different loading curves data and in order to present the Low cycle fatigue life prediction, displacement versus the number of half cycles diagram is produced. Finite element results demonstrated acceptable agreement with the experimental data. Furthermore, the Low cycle fatigue life of connections under loading with constant amplitude is estimated, and S-N curves are proposed. It is demonstrated that the finger plate joint revealed a good performance against soft cracking in Low cycle fatigue compared to a number of previously tested joints. The results of the S-N curve for a constant displacement loading averaged 73% of the lifetime of the initial cracking. Sensitivity analysis with 20% tolerance on the intrinsic parameters of the micro mechanical model showed a maximum change of 15% in the responses.

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APA: Copy

GHASSEMIEH, M., & Afzalan, M.. (2020). Low cycle fatigue failure of steel moment connections with finger shaped cover plates. MODARES CIVIL ENGINEERING JOURNAL, 20(5 ), 153-164. SID. https://sid.ir/paper/1036921/en

Vancouver: Copy

GHASSEMIEH M., Afzalan M.. Low cycle fatigue failure of steel moment connections with finger shaped cover plates. MODARES CIVIL ENGINEERING JOURNAL[Internet]. 2020;20(5 ):153-164. Available from: https://sid.ir/paper/1036921/en

IEEE: Copy

M. GHASSEMIEH, and M. Afzalan, “Low cycle fatigue failure of steel moment connections with finger shaped cover plates,” MODARES CIVIL ENGINEERING JOURNAL, vol. 20, no. 5 , pp. 153–164, 2020, [Online]. Available: https://sid.ir/paper/1036921/en

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