1. Experimental and numerical studies on vibration of laminated composite beam with transverse multiple cracks.
- Author
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Sahu, S.K. and Das, P.
- Subjects
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LAMINATED composite beams , *COMPOSITE construction , *FINITE element method , *DYNAMIC loads , *MATERIALS testing , *FREQUENCIES of oscillating systems - Abstract
• A formulation for vibration of composite beam with cracks is presented. • A program is developed in MATLAB environment based on finite element method. • Natural frequencies of vibration are obtained experimentally and numerically. • Effect of boundary, location and depth of cracks on the frequencies is analyzed. Composite beams are increasingly used in aerospace, automobile, and other applications. Crack is the most common defect in structures during its service life. The cracked composite beams are subjected to dynamic loads and the vibration of the cracked beams is of technical significance to the structural integrity of systems. The objective of the present investigation is to demonstrate the vibration characteristics of a laminated composite beam (LCB) with multiple transverse cracks. Finite element method (FEM) is used for the frequency-based crack analysis in this study. A computer program is developed in MATLAB environment for numerical analysis. First-order shear deformation theory (FSDT) is adopted for the finite element analysis. Natural frequencies of vibration are computed through the eigenvalue solver. Composite specimens are fabricated using hand lay-up technique and are tested for its material constants under tensile test. Experiments are conducted using woven roving Glass/Epoxy laminated beam samples with pre-defined cracks. The obtained test results from the experimental work using FFT analyzer are validated with the numerical results obtained through MATLAB. The effects of natural frequencies with respect to the various boundary conditions, crack depth and locations are investigated to support in real applications. A fine agreement is accomplished between the numerical and test results. Both the studies showed that natural frequencies in the LCB are significantly influenced by the location and size of the cracks. The results show that natural frequencies are decreased with cracks and an increase in fiber orientation. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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