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Geometrically non-linear free and forced vibration of a shallow arch

Omar Outassafte, Ahmed Adri, Yassine El Khouddar, Saïd Rifai, Rhali Benamar

2021Journal of Vibroengineering18 citationsDOIOpen Access PDF

Abstract

The purpose of this present work is to investigate the geometrical non-linearity in free and forced vibration of a shallow arch elastically restrained at the ends. The non-linear governing equilibrium equation of the shallow arch is obtained after the Euler Bernoulli theory and the Von Karman geometrical non-linearity assumptions. After applying the ends conditions, the eigenvalues problem of the generalized trancendant equation have been determined iteratively using the Newton-Raphson algorithm. The kinetic and total strain energy have been discretized into a series of a finite spatial functions which are a combination of linear modes and basic function contribution coefficients. Using Hamilton’s principle energy and spectral analysis, the problem is reduced into a set of non-linear algebraic equations that solved numerically using an approximate explicit method developed previously the so-called second formulation. Considering a multimode approach, the effect of initial rise and concentrated force on non-linear behaviour of system has been illustrated in the backbone curves giving the non-linear amplitude-frequency dependence. The corresponding non-linear deflections and curvatures have been plotted for various vibration amplitudes.

Topics & Concepts

Mathematical analysisMathematicsVibrationArchDiscretizationEigenvalues and eigenvectorsAlgebraic equationPhysicsNonlinear systemQuantum mechanicsEngineeringCivil engineeringVibration and Dynamic AnalysisComposite Structure Analysis and OptimizationStructural Load-Bearing Analysis
Geometrically non-linear free and forced vibration of a shallow arch | Litcius