REVIEW STATIC AND DYNAMIC ANALYSIS OF A LAMINATED COMPOSITE BEAM

International Research Journal of Engineering and Technology (IRJET)

e-ISSN: 2395-0056

Volume: 09 Issue: 07 | July 2022

p-ISSN: 2395-0072

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REVIEW STATIC AND DYNAMIC ANALYSIS OF A LAMINATED COMPOSITE BEAM Prof. Shripad Bagadi1, Kishor Dundage2, Tanmay Patil3, Bhageshrao Gaikwad4 1Assistant

Professor of Mechanical Department, Dr. A. D. Shinde Collage of Engineering, Gadhinglaj-416502, Maharashtra, India 2,3,4 Students of Mechanical Department, Dr. A. D. Shinde Collage of Engineering, Gadhinglaj-416502, Maharashtra, India ---------------------------------------------------------------------***---------------------------------------------------------------------

Abstract – A composite material is characterized as a

carbide, alumina or silicon nitride. They are for the most part powerful for high temperature applications.

material framework which comprises of a blend or a mix of two or all the more unmistakably distinctive materials which are insoluble in each other and vary in structure or concoction creation. In this manner, a composite material is named as any material comprising of two or more stages. Numerous mixes of materials are termed as composite materials, for example, solid, mortar, fiber strengthened plastics, and fiber fortified metals and comparable fiber impregnated materials. Twophase composite materials are masterminded into two general orders: particulate composites and fiber fortified composites. Particulate composites are those in which particles having distinctive shapes and sizes are scattered inside a grid in an unpredictable configuration. Case as mica chips fortified with glass, lead particles in copper mixes and silicon carbon particles in aluminum. Particulate composites are used for electrical applications, welding, machine parts and diverse purposes.

2. LITRATURE REVIEW Systematic Review of Literature concerned to static and dynamic analysis of laminated composite beam has been presented in this chapter. A nomenclature used by various author in their original work has been retained in this chapter as such. The concise nomenclature used in the foredooming chapter of present work is listed separately at the beginning of the thesis. Dipak Kr.Maiti & P.K.Sinha [1] presented the bowing and free vibration examination of shear deformable covered composite shafts by limited component technique. The impacts of different parameters, for example, fiber introduction, stacking succession, range to-thickness proportion and bolster condition on the non dimensionalized redirections, burdens and major frequencies are explored. In the present examination a higher-request shear distortion hypothesis and the customary first-arrange hypothesis are utilized to build up a limited component technique to break down precisely the twisting and vibration conduct of overlaid composite pillars, utilizing ninenoded isoparametric components. The higherrequest hypothesis accept all the dislodging parts, u, v and w, which contain variety up to a cubic force of z.

Key Words: composite material, fiber impregnated materials, solid, mortar.

1. INTRODUCTION Fiber fortified composite materials comprises of filaments of critical quality and firmness inserted in a framework with particular limits between them. Both strands and framework keep up their physical and substance characters, yet their mix plays out a capacity which is impossible by every constituent acting separately. Filaments of fiber strengthened plastics (FRP) might be short or persistent.

Satish kumar Mishra[2] Finite Element Analysis of laminated composite beam presented here, The effect of fiber orientation, number of plies, and stiffness ratio on the displacement of symmetric and anti-symmetric laminated composite plates subjected to uniform pressure loads are studied here. In thiswork, the dynamic behavior of beams and plate manufactured from fiber reinforced composite materials are considered. Modal analysis is carried out to determine the influence of fiber orientation as well as the stacking sequence on the natural frequencies in case of uniform loading over the plate.

It seems clear that FRP having nonstop strands is to be sure more effective. Grouping of FRP composite materials into four general classes has been done in like manner to the grid utilized. They are polymer lattice composites, metal framework composites, clay network composites and carbon/carbon composites. Polymer framework composites are made of thermoplastic or thermoset gums fortified with strands, for example, glass, carbon or boron. A metal grid composite comprises of a framework of metals or compounds strengthened with metal strands, for example, boron or carbon. Fired framework composites comprise of fired lattices fortified with fired strands, for example, silicon

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Mohammed F. Aly et al.[3] In this paper, a joined limited component and test methodology is utilized to describe the vibration conduct of composite shafts. To this end, a few shafts are made utilizing the hand-lay-up procedure. Glass

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