VIBRATION ANALYSIS OF HYBRID COMPOSITE LAMINATED BEAM WITH CRACK IN ANSYS PARAMETRIC DESIGN LANGUAGE

VIBRATION ANALYSIS OF HYBRID COMPOSITE LAMINATED BEAM WITH CRACK IN ANSYS PARAMETRIC DESIGN LANGUAGE
Author(s):
AMIT GHANSELA
Keywords:
Free Vibration, Forced vibration, undamped & damped vibration, linear & Nonlinear vibration, crack, ANSYS APDL
Abstract
Composite cables and beams are an integral part of many structures and are widely used in high-performance machines, airplanes and racing models. Cracking is a type of damage that occurs frequently in building elements and can cause significant structural damage. The effect of cracks on the electrical properties of the structure, such as natural frequencies and vibration modes, has been studied in many studies. However, parametric studies such as the effects of the geometry of the composite beam, the fracture field and the support of its natural frequencies are rarely encountered in the literature. In this review, all studies were performed on hybrid laminated composite beams made of three materials using finite elements, consisting of boron-epoxy, aramid-epoxy and s-glass-epoxy mixture. He probed the numbers to study the response of compound power lines. . in free lateral vibration.
Article Details
Unique Paper ID: 161626 Publication Volume & Issue: Volume 10, Issue 5 Page(s): 233 - 236
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