Effect of fibre orientation on non-linear vibration of partially cracked thin rectangular orthotropic micro plate: An analytical approach

A nonlinear analytical model for vibration analysis of partially cracked thin orthotropic plate as affected by the fibre orientation and arbitrary position of a partial crack is presented. The approach is based on the classical plate theory and the effect of microstructure is incorporated using the...

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Bibliographic Details
Published in:International journal of mechanical sciences 2016-01, Vol.105, p.378-397
Main Authors: Gupta, Ankur, Jain, N.K., Salhotra, R., Rawani, A.M., Joshi, P.V.
Format: Article
Language:English
Subjects:
Cracks
Fiber orientation
Fibre orientation
Frequency response
Mathematical analysis
Mathematical models
Micro-plate
Non-linear vibration
Nonlinearity
Orthotropic plates
Partial crack
Plate theory
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Summary:A nonlinear analytical model for vibration analysis of partially cracked thin orthotropic plate as affected by the fibre orientation and arbitrary position of a partial crack is presented. The approach is based on the classical plate theory and the effect of microstructure is incorporated using the modified couple stress theory. A single partial crack located at an arbitrary position along the line of symmetry is parallel to one of the edges of the plate. The crack considered is in the form of a continuous line and its effect is incorporated in the form of moment and in-plane forces based on a simplified line spring model. Non-linearity in the model is introduced by Berger׳s formulation for the in-plane forces while the Galerkin׳s method with modal functions is used to obtaining the solution of the governing differential equation. A nonlinear frequency response relation and peak amplitude is obtained by the application of the method of multiple scales. Extensive results for the fundamental frequencies and peak amplitude as affected by the fibre orientation, plate aspect ratio, crack length, crack position and internal material length scale parameter are presented for two boundary conditions. It is found that the fibre orientation and the microstructure of the plate affect the fundamental frequencies of the partially cracked orthotropic plates. The linear and nonlinear frequency response curves based on the classical plate theory and the modified couple stress theory are plotted which shows the effect of internal material length scale parameter and crack position on the bending hardening or softening phenomenon. •Vibration characteristics of cracked orthotropic micro plate is presented.•Effect of fibre orientation, crack location and microstructure is analysed.•A single internal material length scale parameter captures the microstructure.•Linear and non-linear frequency response curves are drawn.•Result shows fibre orientation, crack location and microstructure affects frequency.
ISSN:0020-7403
1879-2162
DOI:10.1016/j.ijmecsci.2015.11.020