Abstract
Main objective of this research was to develop a Finite Element Model (FEM) of thin walled flat metal ribbon wound pressure vessel (FMRWPV) using ANSYS software. In this research work, analytical formulae for hoop and axial stress in thin walled FMRWPV under the effect of changing helical winding angle have been developed. Finite Element Analysis (FEA) has been carried out using ANSYS software. The design consists of an inner shell with thickness 40% of the total design thickness and six layers of flat metal ribbons (FMRs) each with 2mm thickness. Ribbons have been wound on the inner shell with same pre-tension by pulling them during winding. The results from analytical and FEA methods in terms of hoop and axial stress have been compared. Suggestions have been made to compensate for variations between analytical and FEA results.

Muhammad Amin, Sagheer Ahmed. (2011) Finite Element Analysis of Pressure Vessel with Flat Metal Ribbon Wound Construction under the Effect of Changing Helical Winding Angle , Journal of Space Technology , Volume 1, Issue 1.
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