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  • Pure Bending of Homogenous Isotropic Elastic Curved Beam
    67-75
    Views:
    63

    In this paper a detailed analysis is given for the pure bending problem of curved beams. The material of the curved beam is homogenous isotropic linearly elastic. The mantle of the curved beam is stress free and there is no body force on the curved beam. The plane of the curvature of the beam is the plane of symmetry for the whole beam. Paper gives the expressions of circumferential and radial normal stresses. A strength of material approach is used to derive the governing equations. A numerical example illustrates the application of the presented solutions. 

  • Torsion of Truncated Hollow Spherical Elastic Body
    234-240
    Views:
    137

    This paper deals with the torsion of a body of rotation whose shape is a truncated hollow sphere. The material of the truncated hollow sphere is isotropic, homogeneous and linearly elastic. To solve the torsion problem, the theory of torsion of shafts of varying circular cross section is used, which is introduced by Michell and Föppl. Analytical solution is given for the shearing stresses and displacements. A numerical example illustrates the application of the presented solution. The results of the presented numerical example can be used as a benchmark problem to verify the accuracy of the results computed by finite element simulations.

  • An Analytical Solution for Static Problems of Cantilever Curved Beams with Variable Cross Sections
    226-233
    Views:
    144

    This paper gives an analytical method to obtain the deformation of a cantilever curved beam. The curved beam considered has circular centre line and the thickness of the cross section in radial direction depends on the circumferential coordinate. The kinematics of the Euler-Bernoulli beam model is used to formulate of governing equations. The curved homogeneous and isotropic elastic beam is fixed at the one of the end cross section and on the other end cross section is subjected to concentrated forces and a couple. A numerical example illustrates the applications of the derived formulae.

  • An Analytical Solution for the Two-Layered Composite Beam-Column with Interlayer Slip and Constant Axial Load
    14-31
    Views:
    84

    The authors present an analytical solution for the two-layered composite beams with imperfect shear connections. The considered beam is simply supported at both ends. The beam is subjected to transverse and axial loads. The kinematic assumptions of the Euler-Bernoulli beam theory are used. The connection of the beam components is perfect in normal direction, but the axial displacement field may have jump. The shear axial force derived from the imperfect connection is proportional to the relative slip occurring between the layers. The determination of the analytical solution is based on the Fourier method. Two examples illustrate the application of the presented analytical method.

  • Neutral Inhomogeneity in Circular Cylinder Subjected to Axial Load on its Lateral Boundary
    35-42
    Views:
    147

    In this paper we consider the problem of single circular elastic inhomogeneity embedded within a circular cylinder whose curved boundary surface is subjected to surface traction acting on axial direction. We investigate the displacement neutrality of the coupled system of host body and inclusion. Neutral inhomogeneity (inclusion) does not disturb the displacement, strain and stress fields in the host body. The deformation of the considered inhomogenneous cylinder is antiplane shear deformation.

  • On the Torsional Rigidity of Orthotropic Beams with Rectangular Cross Section
    25-30
    Views:
    95

    The paper deals with the torsional rigidity of homogenous and orthotropic beam with rectangular cross
    section. The torsional rigidity of the considered beam is defined in the framework of the Saint-Venant theory of
    uniform torsion. Exact and approximate solutions are given to the determination of the torsional rigidity. The shape
    of cross section is determined which gives maximum value of the torsional rigidity for a given cross-sectional area.
    The dependence of torsional rigidity as a function of the ratio shear moduli of beam is also studied.

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