For the spatially coupled free vibration analysis of composite box beams resting on elastic foundation under the axial force, the exact solutions are presented by using the power series method based on the homogeneous form of simultaneous ordinary differential equations. The general vibrational theory for the composite box beam with arbitrary lamination is developed by introducing VlasovΦs ssumption. Next, the equations of motion and force-displacement relationships are derived from the energy principle and explicit expressions for displacement parameters are presented based on power series expansions of displacement components. Finally, the dynamic stiffness matrix is calculated using force-displacement relationships. In addition, the finite element model based on the classical Hermitian interpolation polynomial is presented. To show the performances of the proposed dynamic stiffness matrix of composite box beam, the numerical solutions are presented and compared with the finite element solutions using the Hermitian beam elements and the results from other researchers. Particularly, the effects of the fiber orientation, the axial force, the elastic foundation, and the boundary condition on the vibrational behavior of composite box beam are investigated parametrically. Also the emphasis is given in showing the phenomenon of vibration mode change.

1 Abramovich, H, "Vibrations of multi-span non-symmetric composite beams" 5 : 397-404, 1995

2 Abramovich, H, "Vibrations and buckling of cross-ply nonsymmetric laminated composite beams" 34 : 1064-1069, 1996

3 Eisenberger, M, "Vibration frequencies for beams on variable one- and two-parameter elastic foundation" 176 : 577-584, 1994

4 Matsunaga, H, "Vibration and buckling of multilayered composite beams according to higher order deformation theory" 246 : 47-62, 2001

5 Wu, X.X, "Vibration analysis of laminated composite thin-walled beams using finite elements" 29 : 736-742, 1990

6 Eisenberger, M, "Torsional vibrations of open and variable cross-section bars" 28 : 269-278, 1997

7 Wendroff, B, "Theoretical numerical analysis" Academic Press 1966

8 Gjelsvik, A, "The theory of thin-walled bars" Wiley 1981

9 Dancila, D.S, "The influence of coupling on the free vibration of anisotropic thinwalled closed-section beams" 35 : 3105-3119, 1998

10 Dube, G.P, "Tapered thin open section beams on elastic foundation II: vibration analysis" 61 : 859-869, 1996

11 Eisenberger, M, "Shape control of non-symmetric piezolaminated composite beams" 38 : 565-571, 1997

12 Qin, Z, "On a shear-deformable theory of anisotropic thin-walled beams: further contribution and validations" 56 : 345-358, 2002

13 Eisenberger, M, "Nonuniform torsional analysis of variable and open cross-section bars" 21 : 93-105, 1995

14 La, A, "Natural frequency of laminated composite plate resting on an elastic foundation with uncertain system properties" 27 : 199-222, 2007

15 Roberts, T.M, "Natural frequencies of thin-walled bars of open cross section" 113 : 1584-1593, 1987

16 Vallabhan, C.V.G, "Modified Vlasov model for beams on elastic foundations" 117 : 956-966, 1991

17 Murat Kisa, "Modal analysis of cracked cantilever composite beams" 국제구조공학회 20 (20): 143-160, 2005

18 Jones, R.M, "Mechanics of composite material" McGraw-Hell 1975

19 Wolfram S, "Mathematica, a system for doing mathematics by computer, 2nd ed" Addison-Wesley Publishing Company 1991

20 Yildirim, V, "Investigation of the rotary inertia and shear deformation effects on the out-ofplane bending and torsional natural frequencies of laminated beams" 49 : 313-320, 2000

21 Vo, T.P, "Free vibration of thin-walled composite box beams" 84 : 11-20, 2008

22 Lee, J, "Free vibration of thin-walled composite beams with I-shaped cross -sections" 55 : 205-215, 2000

23 Banerjee, J.R, "Free vibration of composite beams-an exact method using symbolic computation" 32 : 636-642, 1995

24 Chandrashekhara, K, "Free vibration of composite beams suing a refined shear flexible beam element" 43 : 719-727, 1992

25 Banerjee, J.R, "Free vibration of axially loaded composite Timoshenko beams using the dynamic stiffness matrix method" 69 : 197-208, 1998

26 Song, O, "Free vibration of anisotropic composite thin-walled beams of closed crosssection contour" 161 : 129-147, 1993

27 Yildirim, V, "Free vibration analysis of symmetric cross-ply laminated composite beams with the help of the transfer matrix approach" 15 : 651-660, 1999

28 Marur, S.R, "Free vibration analysis of fiber reinforced composite beams using higher order theories and finite element modeling" 194 : 337-351, 1996

29 Armanios, E.A, "Free vibration analysis of anisotropic thin-walled closed-section beams" 33 : 1905-1910, 1995

30 Smith, E.C, "Formulation and evaluation of an analytical model for composite boxbeams" 36 : 23-35, 1991

31 Lee, J, "Flexural-torsional coupled vibration of thin-walled composite beams with channel sections" 80 : 133-144, 2002

32 Shi, G, "Finite element vibration analysis of composite beams based on higher-order beam theory" 219 : 707-721, 1999

33 Shin, D.K, "Exact stiffness matrix of mono-symmetric composite I-beam with arbitrary lamination" 79 : 467-480, 2007

34 Eisenberger, M, "Exact static and dynamic stiffness matrices for general variable cross section members" 28 : 1105-1109, 1990

35 Banerjee, J.R, "Exact dynamic stiffness matrix for composite Timosheko beams with applications" 194 : 573-585, 1996

36 Song, S.J, "Effects of shear deformation on buckling and free vibration of laminated composite beams" 37 : 33-43, 1997

37 Eisenberger, M, "Dynamic stiffness vibration analysis using a higher-order beam model" 57 : 1603-1614, 2003a

38 Eisenberger, M, "Dynamic stiffness analysis of laminated beams using a first order shear deformation theory" 31 : 265-271, 1995

39 Ashour, A.S, "Buckling and vibration of symmetric laminated composite plates with edges elastically restrained" 3 : 439-450, 2003

40 Song, O, "Anisotropy and structural coupling on vibration and instability of spinning thin- walled beams" 204 : 477-494, 1997

41 Eisenberger,M, "An exact high order beam element" 81 : 147-152, 2003b

42 M. Walker, "A technique for optimally designing fibre-reinforced laminated structures for minimum weight with manufacturing uncertainties accounted for" 국제구조공학회 7 (7): 253-262, 2007

43 Bauld, N.R, "A Vlasov theory for fiber-reinforced beams with thin-walled open cross sections" 20 : 277-297, 1984