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Analytical free vibration solution of orthotropic thin plates with three edges rotationally restrained and one edge free

Jinghui Zhang, Gao Pin, Xingjian Diao, Salamat Ullah, Wenyue Qi, Hamad Almujibah, Ömer Cívalek

2025Acta Mechanica10 citationsDOIOpen Access PDF

Abstract

Abstract Orthotropic thin plates are essential in aerospace applications due to their high strength-to-weight ratio, which is critical for efficient structural performance. The mechanical properties of these structures are influenced by numerous factors, with free vibration characteristics being particularly significant. However, analytical solutions for free vibration are often limited to plates with simple boundary conditions (BCs). Few exact analytical solutions exist for plates with complex non-Lévy-type or rotationally restrained BCs. This study aims to analyze the free vibration behavior of orthotropic thin plates featuring three rotationally restrained edges and one free edge, employing the finite integral transform (FIT) method. A key advantage of this method is its simplicity and versatility, as it does not require the predefinition of a deflection function. By setting different values of the rotating fixed coefficient, the study offers analytical free vibration solutions for plates with various combinations of rotationally restrained, simply supported, clamped, and free BCs without additional derivations. The solutions derived using the FIT method are validated by comparison with numerical results obtained from ABAQUS software and available analytical solutions, confirming the method’s accuracy and reliability. Parameter analyses are conducted to examine the effects of aspect ratio, BCs, material properties, and rotating fixed coefficient on non-dimensional frequency parameters and corresponding vibration modes. The results reveal that these parameters significantly influence the frequency characteristics of orthotropic thin plates. The results can be used as a benchmark for validating other analytical and numerical methods.

Topics & Concepts

Orthotropic materialSolid mechanicsVibrationEnhanced Data Rates for GSM EvolutionMaterials scienceMathematical analysisGeometryStructural engineeringMechanicsClassical mechanicsMathematicsAcousticsPhysicsComposite materialEngineeringFinite element methodTelecommunicationsComposite Structure Analysis and OptimizationStructural Analysis and OptimizationTopology Optimization in Engineering
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