Post-Buckling Analysis of E-Glass Fiber Reinforced Thin-Walled Cylindrical Composite

Benedict Nnamdi Ugwu; John N. Ani; Timine Suoware; Sylvester Onyemaechi Edelugo

doi:10.4028/p-JLtWg1

Paper Titles

Preface

Evaluation of Marine Atmospheric Environmental Adaptability of 3238A/CCF300 Composite Material
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Stress Intensity Factor of E-Glass Fiber Reinforced Polyester Composites
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Post-Buckling Analysis of E-Glass Fiber Reinforced Thin-Walled Cylindrical Composite
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Weibull Technique for Evaluation of Swelling: Composite Graphite Resin Electrode for Electrochemical Treatment of Gold Mining Wastewaters
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Enhanced the Bagasse Corrugated Fiber Composite Roofing Properties with Adhesive Substances
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Flexural Strength of Kenaf Fibers/Epoxy Bio-Composites: Content of Kenaf Fiber, Curing Times and Curing Temperatures
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Mechanism and Kinetics of Water Absorption of Plantain Fibre Reinforced Bio-Composites
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Effect of Mercerization on the Crystallographic, Macromolecular, and Thermal Properties of Plantain Fibers for Fiber Reinforced Composite
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HomeMaterials Science ForumMaterials Science Forum Vol. 1115Post-Buckling Analysis of E-Glass Fiber Reinforced...

Post-Buckling Analysis of E-Glass Fiber Reinforced Thin-Walled Cylindrical Composite

Abstract:

Post buckling analysis of E-glass fiber reinforced cylindrical composite under axial compression using both experimental and numerical method is presented. Using the Eigen value buckling analysis, the studies employ a mixture ratio of E-glass fiber composite of chopped strand mat. Five molds of each E-glass fiber mixture were reinforced with polyester resin to produce cylindrical shells of equal dimensions. Various cylindrical specimens’ predicted critical buckling load were tested and recorded using a compressive loading machine. Comparisons were made to ascertain the cylindrical shells buckling and post buckling behavior at certain load levels between the experimental and analytical results. A one-way Anova was used to compare the outcome of the theoretical, experimental and numerical methods of analysis and the result showed that there is no evidence to suggest difference between the three methods applied in the buckling load analysis. The post buckled shapes of the samples were obtained and recorded as bulge diamond shape of a buckled cylindrical structure. The effective mechanical properties of the chopped strand mat (CSM) reinforced composite cylinder were recorded from the experiment which has modulus of Elasticity 197.707 N/mm², Poisson’s ratio of 0.22 and density of 1250 Kg/m³.

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Periodical:

Materials Science Forum (Volume 1115)

Pages:

21-29

DOI:

https://doi.org/10.4028/p-JLtWg1

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Online since:

February 2024

Authors:

Benedict Nnamdi Ugwu*, John N. Ani, Timine Suoware, Sylvester Onyemaechi Edelugo

Keywords:

Chopped Strand Mat, Critical Buckling, Eigen Value, Imperfection, Post Buckling

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References

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