Vibration of Curvilinearly Stiffened Plates Using Ritz Method With Orthogonal Jacobi Polynomials

Alanbay, Berkan; Singh, Kamaldeep; Kapania, Rakesh K.

doi:10.1115/1.4045098

Cited by 10 publications

(2 citation statements)

References 28 publications

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“…Maji and Mahato (2020) reviewed the developments and applications of shear deformation theories for the analysis of laminated composite plates. Ritz method was incorporated by B Alanbay (2020) for the vibration analysis of sandwich panels. Praveen A et al (2020) used higher order theory to study the vibration response of honeycomb panels.…”

Section: Free Vibration Analysismentioning

confidence: 99%

Free vibration analysis of a laminated honeycomb sandwich panel: a suggested analytical solution and a numerical validation

Al-Khazraji

Jweeg²,

Bakhy

2022

JEDT

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Purpose The purpose of this paper is to investigate the free vibration response of a laminated honeycomb sandwich panels (LHSP) for aerospace applications. Higher order shear deformation theory (HSDT) was simplified for the dynamic analysis of LHSP. Furthermore, the effects of honeycomb parameters on the value of natural frequency (NF) of vibration were explored. Design/methodology/approach This paper applies HSDT to the analysis of composite LHSP to derive four vibration differential equations of motion and solve it to find the NF of vibration. Two analytical models (Nayak and Meunier models) were selected from literature for comparison of the NF of vibration. In addition, a numerical model was built by using ABAQUS and the results were compared. Furthermore, parametric studies were conducted to explore the effect of honeycomb parameters on the value of the NF of vibration. Findings The present model is successful in simplifying HSDT for the analysis of LHSP. The first five natural frequencies of vibration were calculated analytically and numerically. In the parametric study, increasing core height or young’s modulus or changing laminate layup will increase the value of NF of vibration. Furthermore, increasing plate constraint (using clamped edge boundary condition) will increase the value of NF of vibrations. Research limitations/implications The current analysis is suitable for all-composite symmetric LHSP. However, for isotropic or non-symmetric materials, minor modifications might be adopted. Originality/value The application of simplified HSDT to the analysis of LHSP is one of the important values of this research. The other is the successful and complete dynamic analysis of all-composite LHSP.

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Section: Free Vibration Analysismentioning

confidence: 99%

Free vibration analysis of a laminated honeycomb sandwich panel: a suggested analytical solution and a numerical validation

Al-Khazraji

Jweeg²,

Bakhy

2022

JEDT

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“…When modeling the stiffeners as beam elements, the glue contact may influence the accuracy of the analysis results because it is very sensitive to the offset between the stiffener's centroid and the plate's median plane [10]. Additionally, both semi-analytical and mesh-less methods were developed for buckling and vibration analysis of curvilinearly stiffened plates by Tamĳani and Kapania [11][12][13], Vescovini et al [14,15] and Alanbay et al [16]. For practical aircraft panels, which have both complex geometry and complex boundary conditions, it is not efficient to use these semi-analytical methods as one needs to find admissible trial functions to satisfy those complex essential boundary conditions.…”

Section: Introductionmentioning

confidence: 99%

Skin-Stringer Assembly Using Radial Basis Functions for Curvilinearly Stiffened Panels

Zhao

Kapania

2021

AIAA Journal

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Recent studies on design optimization of aircraft panels using curvilinear stiffeners reveal that it is possible to improve both the buckling and vibration responses of stiffened structures by varying the stiffener's shape, which change the stiffness as well as the buckling and vibration mode shapes [1][2][3]. Due to the enhanced tailorability of stiffness distribution of stiffened panels, provided by curvilinear stiffeners and curvilinear fiber paths for a plate; Stanford and Jutte [4] studied the aircraft wing box design simultaneously using both curvilinear stiffeners and tow-steered composites in a wing panel design. The optimization results showed that this simultaneous use of curvilinear fibers and curvilinear stiffeners leads to a larger weight reduction as compared to the design that uses such stiffening individually. Singh

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Effect of extreme in-plane and transverse stiffness ratios on frequencies and load transfer between face sheets and core of rectangular sandwich plates

Alanbay

Batra

Kapania

2021

Composite Structures

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Vibration of Curvilinearly Stiffened Plates Using Ritz Method With Orthogonal Jacobi Polynomials

Cited by 10 publications

References 28 publications

Free vibration analysis of a laminated honeycomb sandwich panel: a suggested analytical solution and a numerical validation

Free vibration analysis of a laminated honeycomb sandwich panel: a suggested analytical solution and a numerical validation

Skin-Stringer Assembly Using Radial Basis Functions for Curvilinearly Stiffened Panels

Effect of extreme in-plane and transverse stiffness ratios on frequencies and load transfer between face sheets and core of rectangular sandwich plates

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