International Journal of Structural Engineering and Analysis

The current research consolidates an answer for the flexural examination of basically cantilever beam four layer laminated beam with varying load by utilizing hyperbolic shear deformation theory. These bar numerical are obtained by executing higher shear disfigurement hypothesis having displacement field over the beamcross-segment. Plan relies upon course of action of a beam spoke to by rule of virtual work methodology through the thickness of an overlay beam. Overseeing differential conditions and breaking point conditions for beam are gotten by using the standard of virtual work. Explanations for transverse relocation of beams are gained and responsibility on account of shear deformation. The numerical results have been prepared for various lengths to thickness extents of the beam with MATLAB coding. The outcomes of the current research are differentiated and those of other shear deformationbeam therories to affirm the precision of the outcome.

Keywords: Displacement field, uniform thickness, laminated beam

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