Stress distribution caused by two neighboring out-of-plane locally cophasally curved fibers in a composite material |
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Authors: | N T Cinar R Kosker S D Akbarov E Akat |
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Institution: | 1.Yildiz Technical University, Faculty of Chemistry and Metallurgy, Department of Mathematical Engineering,Davutpasa Campus No: 127, Esenler,Istanbul,Turkey;2.Institute of Mathematics and Mechanics of National Academy of Sciences of Azerbaijan,Azerbaijan,Turkey;3.Yildiz Technical University, Faculty of Mechanical Engineering, Department of Mechanical Engineering,Besiktas,Turkey;4.Yeditepe University Arts & Sciences Faculty,Kayisdagi,Turkey |
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Abstract: | In the present paper, within the framework of a piecewise homogenous body model, with the use of the exact three-dimensional
equations of elasticity theory, a method proposed earlier is developed for investigating the stress distribution caused by
two neighboring out-of-plane locally cophasally curved fibers located along two parallel planes in an infinite elastic body.
The body is loaded at infinity by uniformly distributed normal forces in the direction of fiber location. The self-equilibrated
normal and shear stresses caused by the curved fibers are analyzed, and the influences of interaction between the fibers and
of the geometric nonlinearity on the distribution of these stresses are studied. Numerical results for this interaction are
obtained. |
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Keywords: | |
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