Application of finite element method to the quasi-static thermoelastic analysis of prestress in multilayer pressure vessels

Date

1991-12

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Abstract

Multilayered Wrapped vessel technology utilizes the compressive prestress induced during the construction process to gain a considerable advantage over the monoblock vessels. The compressive prestress allows for more efficient use of construction material and more uniform distribution of stress throughout the vessel's cross section. Analysis of the magnitude of prestress throughout the vessel's thickness has been previously reported Rasty [1988]. However, one major idealization in such analysis has been the assumption that the magnitude of induced prestress is constant around the circumference of the vessel. In this research, thermoelastic finite element method was utilized to simulate the construction process of one layer of the vessel. ABAQUS, a general purpose finite element code, was used for this purpose. It was concluded that the compressive residual stress induced by the weld shrinkage, varies through the circumference of the vessel by as much as 13.5%. Circumferential distribution of the prestress are presented and compared to the closed form solutions (constant prestress assumption) in earlier works.

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Unrestricted.

Keywords

Pressure vessels, Finite element method, Thermoelasticity

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