Analytical study of sandwich structures using Euler–Bernoulli beam equation

Xue, Huang; Khawaja, Hassan Abbas

doi:10.1063/1.4972668

Cited by 5 publications

(3 citation statements)

References 8 publications

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“…For the theoretical analysis the Euler-Bernoulli beam theory [44,45] is solved in MATLAB®. For experimental work, ice is frozen over the PVC surface and loaded in a four-point bending test bench with a mounted strain gauge [46].…”

Section: Multiphysics Analysis Of Ice Adhesion and Separationmentioning

confidence: 99%

Ice shedding from wind turbines

Khawaja,

Xue,

Eidesen

et al. 2024

Multiphysics of Wind Turbines in Extreme Loading Conditions

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Section: Multiphysics Analysis Of Ice Adhesion and Separationmentioning

confidence: 99%

Ice shedding from wind turbines

Khawaja,

Xue,

Eidesen

et al. 2024

Multiphysics of Wind Turbines in Extreme Loading Conditions

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“…Ghosh used this theory as a base for developing and implementing a solution for shape memory polymers [2]. Xue and Khawaja successfully applied the Euler-Bernoulli theory in the analytical study of sandwich structures [3]. The Euler-Bernoulli theory in fractional form is successfully used in the experimental analysis for micro-beams [4].…”

Section: Introductionmentioning

confidence: 99%

The cantilever beams analysis by the means of the first-order shear deformation and the Euler-Bernoulli theory

Ključanin

Manđuka

2019

Teh. glas. (Online)

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The effect of the Timoshenko theory and the Euler-Bernoulli theory are investigated in this paper through numerical and analytical analyses. The investigation was required to obtain the optimized position of the pipes support. The Timoshenko beam theory or the first order shear deformation theory was used regarding thick beams where the shearing effect of the beam is considered. The study of the thin beams was performed with the Euler-Bernoulli theory. The analysis was done for stainless steel AISI-440C beams with the rectangular cross-section. The steel beams were a cantilever and stressed under varying point-centred load.

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“…Efforts has also been made to analyze the structure analytically highlighting key assumptions and limitations [33][34][35]. It is also well-known that extreme conditions contribute towards structural failures [36][37][38][39].…”

mentioning

confidence: 99%

Multiphysics based Modal and Harmonic Analysis of Axial Turbines

2022

IJM

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Vibration deals with the oscillatory motion of dynamic systems and is a combination of matter possessing mass, elasticity, where parts are capable of relative motion [1,2]. Dynamic systems are well-studied and there are a number of examples in aerospace and automotive industry [3][4][5][6][7]. All bodies possessing mass and elasticity potentially can vibrate at specific natural frequencies if excited appropriately. For example, a study involving drop-weight-impact-test of composite clearly demonstrate this phenomenon [8,9]. The resonance phenomenon occurs if the natural frequency of the structural system matches with the frequency of dynamic loading, which may reveal system characteristics [10,11] and if not planned may lead to structure failure [12][13][14]. Tremendous efforts have been made to study the failure mechanism including use of novel techniques such as thermography [15][16][17].Access to computational power has supported the use of numerical methods for various complex multiphysics studies [18,19]. Finite element (FE) methods are being used at large extent for structural analysis [20]. Commercial Software ANSYS® Inc. is well-known for its use for structural analysis [21,22]. A vast number of case studies has been reported where ANSYS® has been employed for complex structural analysis [23][24][25][26][27][28][29][30][31][32].

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Analytical study of sandwich structures using Euler–Bernoulli beam equation

Cited by 5 publications

References 8 publications

Ice shedding from wind turbines

Ice shedding from wind turbines

The cantilever beams analysis by the means of the first-order shear deformation and the Euler-Bernoulli theory

Multiphysics based Modal and Harmonic Analysis of Axial Turbines

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