Equivalent properties of pure metallic reinforcement for pressure vessels using the finite element method

In this work, the equivalent properties for a pure metallic reinforcement to be used in pressure vessels are obtained by means of the Finite Element Method. Three different configurations for the unit cell distribution are proposed and tested against a solid model. It is found that the equivalent pr...

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Veröffentlicht in:Journal of the Brazilian Society of Mechanical Sciences and Engineering 2021-06, Vol.43 (6), Article 305
Hauptverfasser: Celaya Garcia, Luis, Gutierrez Rivera, Miguel, Ledesma Orozco, Elias, Aceves, Salvador M., Martinez Ramirez, Israel
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container_title Journal of the Brazilian Society of Mechanical Sciences and Engineering
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creator Celaya Garcia, Luis
Gutierrez Rivera, Miguel
Ledesma Orozco, Elias
Aceves, Salvador M.
Martinez Ramirez, Israel
description In this work, the equivalent properties for a pure metallic reinforcement to be used in pressure vessels are obtained by means of the Finite Element Method. Three different configurations for the unit cell distribution are proposed and tested against a solid model. It is found that the equivalent properties determined using some unit cells can represent the behavior of the three-dimensional model, with considerably less computational resources. The proposed method can be used to obtain the equivalent properties for different metallic reinforcements, saving computational time during the design process.
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subjects Computing time
Engineering
Equivalence
Finite element analysis
Finite element method
Mechanical Engineering
Pressure vessels
Technical Paper
Three dimensional models
Unit cell
title Equivalent properties of pure metallic reinforcement for pressure vessels using the finite element method
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