Free vibration analysis of large deformed curved beam incorporating rotary inertia and shear deformation effects and its experimental validation

Ghuku, Sushanta; Saha, Kashinath

doi:10.1177/0954406220931564

Cited by 5 publications

(2 citation statements)

References 28 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…5 Though the second problem class involves more complications than the first class, both the dynamic problem classes are much more complicated compared to the straight beams. 6 Moreover, forced vibration problems are more difficult than free vibration problems for both classes of dynamic problems. 7 The present work addresses three major research areas, namely, large static deformation, free vibration, and forced vibration of curved beams.…”

Section: Introductionmentioning

confidence: 99%

Theoretical analysis and a parametric study on forced vibration of large statically deformed curved beam with rigid links and moving support

Ghuku,

Mitra,

Sahoo

2023

Proceedings of the Institution of Mechanical Engineers, Part C:

Self Cite

View full text Add to dashboard Cite

Forced vibration characteristics around large statically deformed configuration of curved beam system with rigid links and moving support are analyzed. In addition, the paper also investigates various parametric effects of height to span ratio and roller radius to height ratio coupled with support connection mechanism and profile shape, on dynamic characteristics of the curved beam system. The subject problem includes two interrelated problems: determining deformed configuration under static load and dynamic response of the loaded beam under harmonic excitation. The static problem is analyzed incrementally through the variational principle-based energy method in body-embedded curvilinear frame considering geometric nonlinearities due to combined bending-stretching and non-uniform initial curvature. In each incremental step, the nonlinear governing equation is solved iteratively, and kinematic constraints due to interactive deformation of the flexible curved beam with rigid links are imposed to obtain the global solution. Concerning the statically deformed configuration, governing equation for forced vibration is derived through Hamilton’s principle in curvilinear frame. Nonlinear effects caused by combined bending-stretching modes of vibration, non-uniform curvature, and lumped mass of the dead static load are considered. The set of inhomogeneous governing equations is solved through Broyden’s method. A direct substitution technique through successive relaxation is also employed to obtain an initial guess solution. Besides the forced vibration, free vibration analysis at static deformed configuration is also carried out for the completeness of the study. The theoretical model is validated through comparisons of loaded natural frequency results with finite element package. After the validation study, the effects of the mentioned geometric parameters on the dynamic response of the curved beam system are investigated and presented suitably. The physically insightful framework along with the parametric study may facilitate simulation and design of several practical structures involving moving support and rigid links subjected to continuous excitation around large statically deformed configurations.

show abstract

Section: Introductionmentioning

confidence: 99%

Theoretical analysis and a parametric study on forced vibration of large statically deformed curved beam with rigid links and moving support

Ghuku,

Mitra,

Sahoo

2023

Proceedings of the Institution of Mechanical Engineers, Part C:

Self Cite

View full text Add to dashboard Cite

show abstract

“…27 studied the impact of buckling and frequency investigation of a spinning cantilevered cylindric 3D shell conjugated with piezoelectric mechanism. Sushanta Ghuku and Kashinath Saha 28 examined the effect of free vibration on distorted curvilinear beam incorporated with rotary inertia and shear distortion impacts. Gaurav et al.…”

Section: Introductionmentioning

confidence: 99%

Effect of trapezoidal shapes and non-uniform edge loads on buckling behaviour of plates with cutouts

Ranjere¹,

Rajanna²,

Arya³

2022

Proceedings of the Institution of Mechanical Engineers, Part C:

View full text Add to dashboard Cite

Crucial buckling loads of composite laminates are typically determined by employing analytical techniques based on the presumptions that the plates are susceptible to uniform edge loads, ignoring the fact that the practical assemblies are regularly exposed to different non-uniform edge loads. The current research paper is centered on the buckling behaviour of different patterns of trapezoidal composite laminates with cutouts under the application of non-uniform in-plane edge loads by employing finite element technique. To achieve this, the panel is discretized by using 9-noded heterosis plate element by employing the impact of shear deformation and rotary inertia. For a given load and the shape of panel, the stress concentration within the panel is highly non-uniform in nature. Hence, a dynamic approach has been employed to calculate the buckling loads. The accuracy of the method is verified by relating the obtained results with existent research. The impact of various variables including the size of the cutout, non-uniform edge loads, boundary conditions, ply alignments and panel trapezoidal shape ratio has been considered to examine the buckling behavior of trapezoidal panels. Buckling load factor optimization using CCD and RSM has also been carried out in detail.

show abstract

Effect of strengthening materials on the behavior of curved beams with openings

Hekal,

Bashandy,

Abdou

et al. 2023

Alexandria Engineering Journal

View full text Add to dashboard Cite

Free vibration analysis of large deformed curved beam incorporating rotary inertia and shear deformation effects and its experimental validation

Cited by 5 publications

References 28 publications

Theoretical analysis and a parametric study on forced vibration of large statically deformed curved beam with rigid links and moving support

Theoretical analysis and a parametric study on forced vibration of large statically deformed curved beam with rigid links and moving support

Effect of trapezoidal shapes and non-uniform edge loads on buckling behaviour of plates with cutouts

Effect of strengthening materials on the behavior of curved beams with openings

Contact Info

Product

Resources

About