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http://dx.doi.org/10.12989/csm.2018.7.5.555

Coupled testing-modeling approach to ultimate state computation of steel structure with connections for statics and dynamics  

Imamovic, Ismar (Laboratoire Roberval, Universite de Technologie de Compiegne / Sorbonne Universites)
Ibrahimbegovic, Adnan (Laboratoire Roberval, Universite de Technologie de Compiegne / Sorbonne Universites)
Mesic, Esad (Faculty of Civil Engineering, University Sarajevo)
Publication Information
Coupled systems mechanics / v.7, no.5, 2018 , pp. 555-581 More about this Journal
Abstract
The moment-resistant steel frames are frequently used as a load-bearing structure of buildings. Global response of a moment-resistant frame structure strongly depends on connections behavior, which can significantly influence the response and load-bearing capacity of a steel frame structure. The analysis of a steel frame with included joints behavior is the main focus of this work. In particular, we analyze the behavior of two connection types through experimental tests, and we propose numerical beam model capable of representing connection behavior. The six experimental tests, under monotonic and cyclic loading, are performed for two different types of structural connections: end plate connection with an extended plate and end plate connection. The proposed damage-plasticity model of Reissner beam is able to capture both hardening and softening response under monotonic and cyclic loading. This model has 18 constitutive parameters, whose identification requires an elaborate procedure, which we illustrate in this work. We also present appropriate loading program and arrangement of measuring equipment, which is crucial for successful identification of constitutive parameters. Finally, throughout several practical examples, we illustrate that the steel structure connections are very important for correct prediction of the global steel frame structure response.
Keywords
steel frame structures; connection behavior; end plate connection; parameters identification;
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1 Dujc, J., Bostjan, B. and Ibrahimbegovic, A. (2010), "Multi-scale computational model for failure analysis of metal frames that includes softening and local buckling", Comput. Meth. Appl. Mech. Eng., 199, 1371-1385.
2 Hill, R. (1950), The Mathematical Theory of Plasticity, Oxford: Clarendon Press.
3 Ibrahimbegovic, A. (2009), Nonlinear Solid Mechanics, Springer.
4 Ibrahimbegovic, A. and Frey, F. (1993a), "Finite element analysis of linear and non-linear planar deformations of elastic initially curved beam", Int. J. Numer. Meth. Eng., 36, 3239-3258.   DOI
5 Ibrahimbegovic, A., Knopf-Lenoir, C., Kucerova, A. and Villon, P. (2004), "Optimal design and optimal control of structures undergoing finite rotations and elastic deformations", Int. J. Numer. Meth. Eng., 61, 2428-60.   DOI
6 Imamovic, I., Ibrahimbegovic, A., Knopf-Lenoir, C. and Mesic, E. (2015), "Plasticity-damage model parameters identification for structural connections", Coupled Syst. Mech.s, 4(4), 337-364.   DOI
7 Imamovic, I., Ibrahimbegovic, A. and Mesic, E. (2017), "Nonlinear kinematics Reissner's beam with combined hardening/softening elastoplasticity", Comput. Struct., 189, 12-20.
8 Kucerova, A., Brancherie, D., Ibrahimbegovic, A., Zeman, J. and Bittnar, Z. (2009), "Novel anisotropic continuum-discrete damage model capable of represenetnig localized failure of massive structures; part II: Identification from test under heterogeneous stress field", Eng. Comput.: Int. J. Comput.-Aid. Eng. Softw., 1(2), 128-144.
9 Nikolic, M., Ibrahimbegovic, A. and Miscevic, P. (2015), "Brittle and ductile failure of rocks: Embedded discontinuity approach for representing mode i and mode ii failure mechanisms", Int. J. Numer. Meth. Eng., 8(102).
10 EC3 (2005), EN 1993-1-8: Eurocode 3: Design of Steel Structures - Part 1-8: Design of Joint, Bruxelles: European Commitee.
11 Taylor, R.L. (2008), FEAP - A Finite Element Analysis Program, Berkeley.
12 Wagner. and Gruttmann, F. (2002), "Modeling of shell-beam transitions in the presence of finite rotations", Comput. Assist. Mech. Eng. Sci., 9, 405-418.
13 Wang, X. (2007), "Experimental research and finite element analysis on behavior of steel frame with semirigid connections", Proceedings of the 5th WSEAS International Conference on Environment, Ecosystems and Development, Tenerife, Spain, December.
14 Abidelah, B., A. and Kerdal, D.E. (2014), "Influence of the flexural rigidity of the bolt on the behavior of the T-stub steel connection", Eng. Struct., 81, 181-194.   DOI