QUASI-STATIC ANALYSIS OF COMPOSITE SLAB
DOI:
https://doi.org/10.11113/mjce.v19.15748Keywords:
Composite slabs, Quasi-static analysis, Non-linear finite element analysisAbstract
This paper presents a method for modeling and analyzing steel deck-concrete composite slabs to obtain quasi-static response using non-linear dynamic finite element analysis. A three-dimensional finite element model of steel-concrete composite slab was developed and analyzed using ABAQUS/Explicit module software. The main considerations included in the model were tensile brittle cracking of concrete, horizontal shear bond behaviour between the concrete and the steel deck and the analysis control. The horizontal shear bond characteristic of the slab model was deduced from bending test data. The finite element modelling and analysis method presented here for composite slabs which failed by a combination of concrete tensile brittle cracking and horizontal shear slip described here was found to be accurate compared to bending test data.References
Abaqus Online Documentation, Version 6.3-1 (2002) Hibbit, Karlsson and Sorenson Inc. Pawtucket, R.I.
Abdullah, R. and Easterling, W.S. (2003) Structural evaluation of new Vulcraft composite deck profile: Phase II, Report No. CEE/VPI-ST03/01, Virginia Polytechnic Institute and State
University, Blacksburg, Virginia.
Abdullah, Redzuan (2004) Experimental Evaluation and Analytical Modeling of Shear Bond in
Composite Slabâ€, PhD Dissertation, Virginia Polytechnic Institute and State University,
Blacksburg. USA.
An, L. (1993) Load Bearing Capacity and Behaviour of Composite Slabs with Profiled Steel Sheet, Phd Dissertation, Chalmers University of Technology, Sweden.
ASCE. (1992). Standard for the Structural Design of Composite Slabs. ANSI/AASCE 3-91, American Society of Civil Engineers, New York.
CSSBI. (1996) Standard for Composite Steel Deck, CSSBI 12M - 96, Canadian Sheet Steel Building Institute.
Daniels, B. J., and Crisinel, M. (1993) Composite Slab Behavior and Strength Analysis. Part I: Calculation Procedure. Journal of Structural Engineering, 119(1-4), 16-35.
Daniels, B. J. (1988) Shear Bond Pull-out Tests for Cold-Formed-Steel Composite Slabs. ICOM -Construction Metallique, Department de Genie Civil, Ecole Polytechnique Federale de
Lausanne.
Eurocode 4. (2001) Design of Composite Steel and Concrete Structures - Part 1.1: General Rule and Rules for Buildings, EN 1994-1.1:2001, Draft No. 3, European Committee for
Standardization, Brussels.
Luttrell, L. D (1987) Flexural Strength of Composite Slab. Composite Steel Structures –
Advances, Design and Construction, Narayanan, R., Ed., Elsevier, London, 106-115.
Veljkovic, M. (1994) Interaction between Concrete and Sheeting in Composite Slabs. S-971 87 LULEA, Lulea University of Technology, Division of Steel Structures, Lulea, Sweden.
Veljkovic, M. (1996) Behaviour and Resistance of Composite Slabs, Phd Thesis, Lulea University of Technology, Lulea, Sweden.
Widjaja Budi Ryanto (1997) Analysis and Design of Steel Deck-Concrete Composite Slabs, Ph.D. Thesis, Virginia Polytechnic Institute and State University, Blacksburg. USA.