Vibration analysis of rotating Timoshenko beams by means of the differential quadrature method

Bambill, Diana V.; Felix, Daniel H.; Rossi, R.E.

doi:10.12989/sem.2010.34.2.231

Cited by 15 publications

(6 citation statements)

References 30 publications

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“…(Bambill et al, 2010). The finite element model employed in the analysis has 3000 beam elements of two nodes in the longitudinal direction (Rossi, 2007).…”

Section: Finite Element Method Mefmentioning

confidence: 99%

“…Not so many studies have tackled the problem of rotating beams taking into account rotary inertia, shear deformation and their combined effects, hub radius and ends elastically restrained, (Bambill et al, 2010). In applications where the rotary inertia and the shear deformation effects are not significant, an analysis based on the Euler-Bernoulli beam theory can be used.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Free Vibration Analysis of Centrifugally Stiffened Non Uniform Timoshenko Beams

Bambill¹,

Felix²,

Rossi³

et al. 2012

Mechanical Engineering

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“…(Bambill et al, 2010). The finite element model employed in the analysis has 3000 beam elements of two nodes in the longitudinal direction (Rossi, 2007).…”

Section: Finite Element Method Mefmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Free Vibration Analysis of Centrifugally Stiffened Non Uniform Timoshenko Beams

Bambill¹,

Felix²,

Rossi³

et al. 2012

Mechanical Engineering

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“…On the other hand, Fig. 1(b) shows an equivalent single-layer finite element model for the current study, which is based upon the Timoshenko beam theory (Timoshenko 1955, Bambill et al 2010. Where, the reference axis and the superscript (•) * indicate the neutral axis of the damped structure and the complex values respectively, and the elastic constants ρ, G * and are the equivalent Fig.…”

Section: Problem Descriptionmentioning

confidence: 99%

Forced vibration analysis of damped beam structures with composite cross-section using Timoshenko beam element

Won¹,

Bae²,

Jeong³

et al. 2012

Structural Engineering and Mechanics

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A damped Timoshenko beam element is introduced for the DOF-efficient forced vibration analysis of beam-like structures coated with viscoelastic damping layers. The rotary inertia as well as the shear deformation is considered, and the damping effect of viscoelastic layers is modeled as an imaginary loss factor in the complex shear modulus. A complex composite cross-section of structures is replaced with a homogeneous one by means of the transformed section approach in order to construct an equivalent single-layer finite element model capable of employing the standard C 0-continuity basis functions. The numerical reliability and the DOF-efficiency are explored through the comparative numerical experiments.

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“…One of the extensively studied topics is free vibration analysis or the computation of dynamic characteristics, which is a critical design and performance evaluation criteria designating the life of structure, operating limits and stability. Therefore, numerous numerical methods such as Adomian decomposition (Adair and Jaeger, 2018a, 2018b; Mao, 2014), differential transformation (Mei, 2008; Nourifar et al , 2018; Kaya, 2006; Kumar et al , 2019; Kurt and Kaya, 2019; Ozdemir and Kaya, 2006a, 2006b; Rajasekaran, 2013), differential quadrature (Bambill et al , 2010; Choi et al , 1999), dynamic stiffness (Banerjee et al , 2006; Banerjee and Kennedy, 2014), finite element (Abbas, 1986; Chung and Yoo, 2002; Hoa, 1979; Hodges and Rutkowski, 1981; Wang and Werely, 2004), Fourier series (Chen and Du, 2019), mesh free Galerkin (Panchore et al , 2018), power series (Adair and Jaeger, 2018a, 2018b; Huang et al , 2010), Rayleigh-Ritz (Oh and Yoo, 2016; Ramesh and Rao, 2014; Roy and Meguid, 2018), Ritz (Navazi et al , 2017), transfer matrix (Lee and Lee, 2018, 2020; Rui et al , 2018) and variational iteration (Chen et al , 2016) have been used to avoid possible resonance cases by computing the dynamic characteristics of rotating-beam structures more accurately.…”

Section: Introductionmentioning

confidence: 99%

Free vibration analysis of a rotating double tapered beam with flexible root via differential quadrature method

Yavuz

Özkol

2021

AEAT

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Purpose This study aims to develop the governing differential equation and to analyze the free vibration of a rotating non-uniform beam having a flexible root and setting angle for variations in operating conditions and structural design parameters. Design/methodology/approach Hamiltonian principle is used to derive the flapwise bending motion of the structure, and the governing differential equations are solved numerically by using differential quadrature with satisfactory accuracy and computation time. Findings The results obtained by using the differential quadrature method (DQM) are compared to results of previous studies in the open literature to show the power of the used method. Important results affecting the dynamics characteristics of a rotating beam are tabulated and illustrated in concerned figures to show the effect of investigated design parameters and operating conditions. Originality/value The principal novelty of this paper arises from the application of the DQM to a rotating non-uniform beam with flexible root and deriving new governing differential equation including various parameters such as rotary inertia, setting angle, taper ratios, root flexibility, hub radius and rotational speed. Also, the application of the used numerical method is expressed clearly step by step with the algorithm scheme.

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Vibration analysis of rotating Timoshenko beams by means of the differential quadrature method

Cited by 15 publications

References 30 publications

Free Vibration Analysis of Centrifugally Stiffened Non Uniform Timoshenko Beams

Free Vibration Analysis of Centrifugally Stiffened Non Uniform Timoshenko Beams

Forced vibration analysis of damped beam structures with composite cross-section using Timoshenko beam element

Free vibration analysis of a rotating double tapered beam with flexible root via differential quadrature method

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