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Tolerance Modelling of Vibrations and Stability for Periodic Slender Visco-Elastic Beams on a Foundation with Damping. Revisiting

Jarosław Jędrysiak

2020Materials12 citationsDOIOpen Access PDF

Abstract

The mathematical modelling of certain problems of vibrations and stability for periodic slender visco-elastic beams is presented in this note. To consider these problems and take into account the effect of the microstructure, the tolerance modelling approach is proposed. Using this technique, the equation with non-continuous, periodic, highly oscillating coefficients is replaced by a system of differential equations with constant coefficients. Moreover, these governing equations describe the effect of the microstructure on the overall behavior of the beams under consideration. The tolerance modelling can lead to equations of two different tolerance models-the standard and the general, under weakened assumptions. This averaging tolerance method was assessed by comparison with the asymptotic homogenization, the governing equations of which omit this effect. My considerations were limited to proposing and presenting only mathematical models describing investigated beams. In a simple analytical example, the application of the presented average models is shown.

Topics & Concepts

Homogenization (climate)VibrationDifferential equationAsymptotic homogenizationStability (learning theory)Foundation (evidence)Constant (computer programming)MathematicsMathematical analysisMechanicsApplied mathematicsStructural engineeringPhysicsComputer scienceFinite element methodEngineeringProgramming languageEcologyQuantum mechanicsBiodiversityHistoryMachine learningBiologyArchaeologyAdvanced Mathematical Modeling in EngineeringComposite Material MechanicsComposite Structure Analysis and Optimization
Tolerance Modelling of Vibrations and Stability for Periodic Slender Visco-Elastic Beams on a Foundation with Damping. Revisiting | Litcius