[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sem.2006.22.3.263

An analytical model of layered continuous beams with partial interaction

Schnabl, Simon (University of Ljubljana, Faculty of Civil and Geodetic Engineering)
Planinc, Igor (University of Ljubljana, Faculty of Civil and Geodetic Engineering)
Saje, Miran (University of Ljubljana, Faculty of Civil and Geodetic Engineering)
Cas, Bojan (University of Ljubljana, Faculty of Civil and Geodetic Engineering)
Turk, Goran (University of Ljubljana, Faculty of Civil and Geodetic Engineering)

Publication Information

Structural Engineering and Mechanics / v.22, no.3, 2006 , pp. 263-278 More about this Journal

Abstract

Starting with the geometrically non-linear formulation and the subsequent linearization, this paper presents a consistent formulation of the exact mechanical analysis of geometrically and materially linear three-layer continuous planar beams. Each layer of the beam is described by the geometrically linear beam theory. Constitutive laws of layer materials and relationships between interlayer slips and shear stresses at the interface are assumed to be linear elastic. The formulation is first applied in the analysis of a three-layer simply supported beam. The results are compared to those of Goodman and Popov (1968) and to those obtained from the formulation of the European code for timber structures, Eurocode 5 (1993). Comparisons show that the present and the Goodman and Popov (1968) results agree completely, while the Eurocode 5 (1993) results differ to a certain degree. Next, the analytical solution is used in formulating a general procedure for the analysis of layered continuous beams. The applications show the qualitative and quantitative effects of the layer and the interlayer slip stiffnesses on internal forces, stresses and deflections of composite continuous beams.

Keywords

composite; layered beam; interlayer slip; mathematical model; analytical solution; elasticity;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)
Times Cited By Web Of Science : 19 (Related Records In Web of Science)
Times Cited By SCOPUS : 15

1	Gatessco, N. (1999), 'Analytical modeling of nonlinear behavior of composite beams with deformable connection', J. Const. Steel Res., 52, 195-218 DOI ScienceOn
2	Girharnmar, U.A and Gopu, V.K.A (1993), 'Composite beam-columns with interlayer slip-exact analysis', J. Struct. Eng, ASCE, 199(4), 1265-1282
3	Girhammar, U.A and Pan, D. (1993), 'Dynamic analysis of composite member with interlayer slip', Int. J. Solids Struct., 30(6), 797-823 DOI ScienceOn
4	Goodman, J.R. and Popov, E.P. (1968), 'Layered beam systems with interlayer slip', J. Struct. Div., ASCE, 94(11),2535-2547
5	Goodman, J.R. and Popov, E.P. (1969), 'Layered wood systems with interlayer slip', Wood Science, 1(3), 148-158
6	Heinisuo, M. (1988), 'An exact finite element technique for layered beams', Comput. Struct., 30(3), 615-622 DOI ScienceOn
7	Jasim, N.A (1997), 'Computation of deflections for continuous composite beams with partial interaction', Proc. of The Institution of Civil Engineers, Structures and Buildings, 122, 347-354
8	Jasim, N.A and Mohamad, A.A (1997), 'Deflections of composite beams with partial shear connection', The Struct. Eng., 75(4), 58-61
9	Kristek, V. and Studnicka, J. (1982), 'Analysis of composite girders with deformable connectors', Proc. of The Institution of Civil Engineers, Part 2,73,699-712
10	Linden, M.V. (1999), 'Timber-concrete composite beams', HERON, 44(3), 215-239
11	Newmark, N.M., Siess, C.P. and Viest, I.M. (1951), 'Test and analysis of composite beams with incomplete interaction', Proc. ofthe Society for Experimental Stress Analysis, 1, 75-92
12	Nie, J., Fan, J. and Cai, C.S. (2004), 'Stiffness and deflection of steel-concrete composite beams under negative bending', J Struct. Eng, ASCE, 130(11), 1842-1851 DOI ScienceOn
13	Oven, V.A, Burgess, l.W, Plank, R.J. and Abdul Wali, A.A (1997), 'An analytical model for the analysis of composite beams with partial interaction', Comput. Struct., 62(3), 493-504 DOI ScienceOn
14	Plum, D.R. and Home, M.R. (1975), 'The analysis of continuous composite beams with partial interaction', Proc. of The Institution ofCivil Engineers, Structures and Buildings, Part 2,59,625-643
15	Ranzi, G, Bradford, M.A and Uy, B. (2003), 'A general method of analysis of composite beams with partial interaction', Steel and Composite Structures, 3(3), 169-184 DOI ScienceOn
16	Rassam, H.Y. and Goodman, J.R. (1971), 'Design of layered wood columns with interlayer slip', Wood Science, 3(3), 149-155
17	Silfwerbrand, J. (1997), 'Stresses and strains in composite concrete beams subjected to differential shrinkage', ACI Struct. J., 94(4), 347-353
18	Smith, S.T. and Teng, J.G (2001), 'Interfacial stresses in plated beams', Eng Struct., 23, 857-871 DOI ScienceOn
19	Thompson, E.G, Goodman, J.R. and Vanderbilt, M.D. (1975), 'Finite element analysis of layered wood systems', J. Struct. Div., ASCE, 101(ST12), 2659-2672
20	Wolfram, S. (2003), Mathematica, Addison-Wesley Publishing Company
21	Cosenza, E. and Pecce, M. (2001), 'Shear and normal stresses interaction in coupled structural systems', J. Struct. Eng, ASCE, 127(1), 84-88 DOI ScienceOn
22	Wang, Y.C. (1998), 'Deflection of steel-concrete composite beams with partial shear interaction', J. Struct. Eng, ASCE, 124(10), 1159-1165 DOI ScienceOn
23	Faella, C., Martinelli, E. and Nigro, E. (2002), 'Steel and concrete composite beams with flexible shear connection: 'exact' analytical expression of the stiffuess matrix and applications', Comput. Struct., 80, 1001-1009 DOI ScienceOn
24	Ayoub, A. and Filippou, F.C. (2000), 'Mixed formulation of nonlinear steel-concrete composite beam element', J. Struct. Eng, ASCE, 126(3), 371-381 DOI ScienceOn
25	Fragiacomo, M., Amadio, C. and Macorini, L. (2004), 'Finite-element model for collapse and long-term analysis of steel-concrete composite beams', J. Struct. Eng, ASCE, 130(3),489-497 DOI ScienceOn
26	McCutheon, W.J. (1986), 'Stiffness of framing members with partial composite action', J. Struct. Eng, ASCE, 112(7), 1623-1637 DOI ScienceOn
27	Reissner, E. (1972), 'On one-dimensional nite-strain beam theory: The plane problem', J. of Appl. Mech. and Physics (ZAMP), 23, 795-804 DOI
28	Jasim, N.A (1999), 'Deflections of partially composite beams with linear connector density', J. Const. Steel Res., 49, 241-254 DOI ScienceOn
29	Ayoub, A. (2001), 'A two-field mixed variational principle for partially connected composite beams', Finite Elements in Analysis and Design, 37, 929-959 DOI ScienceOn
30	Cas, B., Saje, M. and Planinc, I. (2004b), 'Non-linear finite element analysis of composite planar frames with an interlayer slip', Comput. Struct., 82, 1901-1912 DOI ScienceOn
31	Dall'Asta, A. and Zona, A. (2002), 'Nonlinear analysis of composite beams by displacement approach', Comput. Struct., 80, 2217-2228 DOI ScienceOn
32	Eurocode 5 (1993), 'Design of timber structures, Part 1-1: General rules and rules for buildings', ENV 1995-1-1
33	Fabbrocino, G, Manfredi, G and Cosenza, E. (2000), 'Analysis of continuous composite beams in eluding partial interaction and bond', J. Struct. Eng, ASCE, 126(11), 1288-1294 DOI ScienceOn
34	Fabbrocino, G, Manfredi, G and Cosenza, E. (2002), 'Modelling of continuous steel-concrete composite beams: Computational aspects', Comput. Struct., 80, 2241-2251 DOI ScienceOn
35	Faella, C., Martinelli, E. and Nigro, E. (2003), 'Shear connection nonlinearity and deflections of steel-concrete composite beams with: A simplified method', J. Struct. Eng, ASCE, 129(1), 12-20 DOI ScienceOn
36	Adekola, U.O. (1968), 'Partial interaction between elastically connected elements of a composite beam', Int. J. Solids Struct., 4, 1125-1135 DOI ScienceOn
37	Wheat, D.L. and Calixto, J.M. (1994), 'Nonlinear analysis of two-layered wood members with inter-layer slip', J. Struct. Eng, ASCE, 120(6), 1909-1929 DOI ScienceOn
38	Cas, B. (2004a), 'Non-linear analysis of composite beams with interlayer slip', PhD Thesis (in Siovenian), University of Ljubljana, Faculty of Civil and Geodetic Engineering

9	S. Schnabl. (2007) Finite Elements in Analysis and Design Locking-free two-layer Timoshenko beam element with interlayer slip / 43 (9) , 705
3	S. Schnabl. (2011) International Journal of Non-Linear Mechanics The effect of transverse shear deformation on the buckling of two-layer composite columns with interlayer slip / 46 (3) , 543
6	A. Krofli？. (2010) Engineering Structures Non-linear analysis of two-layer timber beams considering interlayer slip and uplift / 32 (6) , 1617
	A. Chakrabarti. (2012) Engineering Structures Analysis of composite beams with partial shear interactions using a higher order beam theory / 36 , 283
	Salvatore Di Lorenzo. (2017) Procedia Engineering On the moving multi-loads problem in discontinuous beam structures with interlayer slip / 199 , 2531
	Pisey Keo. (2016) Engineering Structures Exact finite element formulation for an elastic hybrid beam-column in partial interaction with shear-deformable encasing component / 125 , 494
	Navid Saeedi. (2013) Composite Structures Stress analysis of long multilayered plates subjected to invariant loading: Analytical solutions by a layerwise stress model / 100 , 307
2	Leo ？kec. (2014) Acta Mechanica Analysis of a geometrically exact multi-layer beam with a rigid interlayer connection / 225 (2) , 523
11	I. Planinc. (2008) Engineering Structures Numerical and experimental analysis of timber composite beams with interlayer slip / 30 (11) , 2959
6	Joao Batista M. Sousa. (2010) Engineering Structures Analytical and numerical analysis of multilayered beams with interlayer slip / 32 (6) , 1671
	S.R. Atashipour. (2017) International Journal of Solids and Structures Stability analysis of three-layer shear deformable partial composite columns / 106-107 , 213
	J. A. Dourakopoulos. (2014) Advances in Civil Engineering Nonlinear Dynamic Analysis of Plates Stiffened by Parallel Beams with Deformable Connection / 2014 , 1
22	Jerneja Kolšek. (2013) Journal of Composite Materials Analytical solution of linear elastic beams cracked in flexure and strengthened with side plates / 47 (22) , 2847
	A. Krofli？. (2011) Computers & Structures Non-linear analysis of two-layer beams with interlayer slip and uplift /
8	Simon Schnabl. (2013) Journal of Engineering Mechanics Buckling Loads of Two-Layer Composite Columns with Interlayer Slip and Stochastic Material Properties / 139 (8) , 961
3	Safat Al-deen. (2011) Journal of Constructional Steel Research Full-scale long-term experiments of simply supported composite beams with solid slabs / 67 (3) , 308
10	S. Schnabl. (2010) Engineering Structures The influence of boundary conditions and axial deformability on buckling behavior of two-layer composite columns with interlayer slip / 32 (10) , 3103
	Salvatore Di Lorenzo. (2018) Composites Part B: Engineering Flexural vibrations of discontinuous layered elastically bonded beams / 135 , 175
10	Safat Al-deen. (2011) Journal of Constructional Steel Research Full-scale long-term and ultimate experiments of simply-supported composite beams with steel deck / 67 (10) , 1658
1	A. Chakrabarti. (2012) International Journal of Mechanical Sciences Analysis of composite beams with longitudinal and transverse partial interactions using higher order beam theory / 59 (1) , 115
	Nima Khorsandnia. (2014) International Journal of Non-Linear Mechanics A force-based frame finite element formulation for analysis of two- and three-layered composite beams with material non-linearity / 62 , 12
6	Jerneja Kolsek. (2014) Steel and Composite Structures Non-linear analysis of side-plated RC beams considering longitudinal and transversal interlayer slips / 16 (6) , 559
7	Ulf Arne Girhammar. (2009) International Journal of Mechanical Sciences A simplified analysis method for composite beams with interlayer slip / 51 (7) , 515
4	Fabrizio Gara. (2010) International Journal of Steel Structures Short- and long-term analytical solutions for composite beams with partial interaction and shear-lag effects / 10 (4) , 359
1	A. Chakrabarti. (2013) Journal of Structural Engineering Dynamic Response of Composite Beams with Partial Shear Interaction Using a Higher-Order Beam Theory / 139 (1) , 47
1	Pengzhen Lu. (2014) Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics A new model for composite beams with partial interaction / 167 (1) , 30
4	Safat Al-deen. (2011) Engineering Structures Shrinkage effects on the flexural stiffness of composite beams with solid concrete slabs: An experimental study / 33 (4) , 1302
10	Gianluca Ranzi. (2008) Engineering Structures Locking problems in the partial interaction analysis of multi-layered composite beams / 30 (10) , 2900
12	S. Schnabl. (2011) International Journal of Mechanical Sciences Inelastic buckling of two-layer composite columns with non-linear interface compliance / 53 (12) , 1077
5	Gianluca Ranzi. (2010) Engineering Structures A geometric nonlinear model for composite beams with partial interaction / 32 (5) , 1384
11	Nima Khorsandnia. (2014) Advances in Structural Engineering Structural Response of Timber-Concrete Composite Beams Predicted by Finite Element Models and Manual Calculations / 17 (11) , 1601
4	(2019) Coatings The Effects of an Interlayer Debond on the Flexural Behavior of Three-Layer Beams / 9 (4) , 258
	Pisey Keo. (2016) Finite Elements in Analysis and Design Derivation of the exact stiffness matrix of shear-deformable multi-layered beam element in partial interaction / 112 , 40
2041-3076	(2018) Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications Three-dimensional bimetallic layered beams with interface compliance: Analytical solution / (2041-3076) , 146442071880370
6	Ales Kroflic. (2006) Structural engineering and mechanics : An international journal Analytical solution of two-layer beam including interlayer slip and uplift / 34 (6) , 667
2	(2006) Structural engineering and mechanics : An international journal Analysis of composite frame structures with mixed elements - state of the art / 41 (2) , 157
4	(2006) Structural engineering and mechanics : An international journal Analytical modelling of multilayer beams with compliant interfaces / 44 (4) , 465
None	(2018) Engineering structures Analytical solution of three-dimensional two-layer composite beam with interlayer slips / 173 (None) , 269

1	Analytical solution of two-layer beam including interlayer slip and uplift / [Kroflic, Ales;Planinc, Igor;Saje, Miran;Cas, Bojan;] / Structural Engineering and Mechanics
2	Short- and Long-term Analytical Solutions for Composite Beams with Partial Interaction and Shear-lag Effects / [Gara, Fabrizio;Ranzi, Gianluca;Leoni, Graziano;] / International journal of steel structures
3	Analytical modelling of multilayer beams with compliant interfaces / [Skec, L.;Schnabl, S.;Planinc, I.;Jelenic, G.;] / Structural Engineering and Mechanics
4	Analysis of composite frame structures with mixed elements - state of the art / [Ayoub, Ashraf;] / Structural Engineering and Mechanics
5	Non-linear analysis of side-plated RC beams considering longitudinal and transversal interlayer slips / [Kolsek, Jerneja;Hozjan, Tomaz;Kroflic, Ales;Saje, Miran;Planinc, Igor;] / Steel and Composite Structures

1	/ Finite Elements in Analysis and Design
2	/ Engineering Structures
3	/ Journal of Constructional Steel Research
4	/ Engineering Structures
5	/ Engineering Structures
6	/ International Journal of Mechanical Sciences
7	/ Structural Engineering and Mechanics
8	/ Engineering Structures
9	/ Engineering Structures
10	/ Engineering Structures
11	/ International Journal of Mechanical Sciences
12	/ Computers and Structures
13	/ Engineering Structures
14	/ International Journal of Non-Linear Mechanics
15	/ Journal of Constructional Steel Research