Investigation of Stress Distributions Between A Frictional Rigid Cylinder and Laminated Glass Fiber Composites
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Date
2021-04Author
Yılmaz, Korhan Babacan
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Surface and sub – surface stresses, and edges of contact patch between a rigid
cylinder and laminated glass fiber composites are evaluated in this thesis. A novel
and modern system of analysis based on Cholesky decomposition, Gauss
elimination, Hermite orthogonal polynomials, Fourier transforms and singular
integral equation (SIE) is developed to obtain analytical results. Numerical results
are obtained in order to verify the precision of the analytical method using an
effective and self mesh adaptive computational model built on augmented contact
formulation (ACF) and finite element method. The effectiveness of the new
analytical formulation was shown by a perfect match between these results. The
formulations have been introduced for various interaction properties, material
parameters, friction related terms, and lamina order in order to monitor the effects
on surface and sub – surface stresses, and edges of contact patch. The findings
and discussions addressed can be of value to the structural design of laminated
glass fiber composites under extreme contact conditions.