Abstract
Theoretical approach with analytical and numerical procedure for determination initial displacement of a reinforced and prestressed concrete members, simple and cantilever beams, loaded by axial forces and bending moments is proposed. It is based on the principle of minimum potential energy with equality of internal and external forces. The equations for strain internal energy have been derived, including compressed and tensile concrete and reinforcement. The energy equations of the external forces with axial flexural displacement effects have been derived from the assumed sinusoidal curve. The trapezoid rule is applied to integrate the segment strain energy. The proposed method uses a non-linear stress-strain curve for the concrete and bilinear elastic-plastic relationship for reinforcement; equilibrium conditions at a sectional level to generate the strain energies along the beam. At the end of this article are shown three specific numerical examples with comparative, experimental (two tests) results with the excellent agreement and one calculation result with a great disagreement, by obtaining results of virtual principle method. With this method is avoiding the adoption of an unsure (EJ), as in the case of underestimating or overestimate initial flexural rigidity.
Highlights
IntroductionAccording to ACI 318 Building Code [2] instantaneous displacement of reinforced concrete beams, shall be computed with effective moment of inertia Jc, given by
At the end of this article are shown three specific numerical examples with comparative, experimental results with the excellent agreement and one calculation result with a great disagreement, by obtaining results of virtual principle method
The main objective of this paper is to present a theoretical and analytical model that determines the elastic and inelastic structural response, strains and strength with the initial displacement of the simple and cantilever RC & PCT beams
Summary
According to ACI 318 Building Code [2] instantaneous displacement of reinforced concrete beams, shall be computed with effective moment of inertia Jc, given by. Two methods [11] are suggested for calculating the deflection of both reinforced and prestressed concrete flexural members. The energy potential of the internal stresses and strains along the element is equated with the energy of the external forces for the required deformation This equalization gives a quadratic equation for the case of axial cross-section force or prestressing force, or a linear equation for the case of moments in cross-section, without axial forces. The expressions for the energy potentials of the internal forces are shown in a general (open) form, with the possibility of numerical integration, which is a free member of the quadratic (linear) equation that directly affects the magnitude of the displacement.
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