Litcius/Paper detail

Optimization of dome shape for filament wound pressure vessels using data-driven evolutionary algorithms

Dominik Vondráček, Zdeněk Padovec, Tomáš Mareš, Nirupam Chakraborti

2023Materials and Manufacturing Processes16 citationsDOI

Abstract

Filament wound glass/epoxy and carbon/epoxy pressure vessels were designed using a data-driven evolutionary approach along with a classical mechanics-based analysis. Analytical solutions for three known end domes (a spherical shell, a geodesic-isotensoid shell and a shell based on minimizing of the Tsai-Hill’s criterion) and end dome based on Hoffman’s criterion were used to create surrogate models through two different evolutionary optimization algorithms: Evolutionary Neural Net (EvoNN) and Bi-objective Genetic Programming (BioGP) and bi-objective evolutionary optimization studies were carried out using them. Composite pressure vessels are manufactured by means of filament (helical) winding. The stresses in the end domes were evaluated analytically and compared with each other. Hoffman strength criterion was chosen for the evaluation of the critical areas of the shells. Moreover, the best dome shape for given material and polar hole/equator ratio was selected for various types of failure.

Topics & Concepts

Dome (geology)Filament windingShell (structure)Evolutionary algorithmMaterials scienceGeodesicProtein filamentEpoxyPressure vesselCore (optical fiber)BucklingGenetic algorithmShape optimizationStructural engineeringComposite materialMechanicsMechanical engineeringGeometryMathematicsMathematical optimizationEngineeringPhysicsGeologyFinite element methodPaleontologyEngineering Technology and MethodologiesEpoxy Resin Curing ProcessesAdvanced machining processes and optimization