On Hierarchical Applications of Finite Element Methods and Classical Applied Mechanics Approaches for Complex Structures

In this paper, hierarchical studies based on both analytical and computational approaches have been employed to validate and improve current structural designs of mud holding tanks for hydraulic fracturing in petroleum industries. Through detailed comparisons at different levels of approximations fo...

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Veröffentlicht in:Applied Mechanics Jg. 3; H. 2; S. 464 - 480
Hauptverfasser: Wang, Sheldon, Ndip-Agbor, Ebot, Atamenwan, Enaho
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Zwijnaarde MDPI AG 01.06.2022
Schlagworte:
Approximation
buckling
Design
finite element method
hierarchical
Manufacturing
Mechanics
multi-scale modeling
Steel
stiffener
Stress analysis
ISSN:2673-3161, 2673-3161
Online-Zugang:Volltext
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Zusammenfassung:In this paper, hierarchical studies based on both analytical and computational approaches have been employed to validate and improve current structural designs of mud holding tanks for hydraulic fracturing in petroleum industries. Through detailed comparisons at different levels of approximations for both real world complex structural design problem and a simplified stiffened plate with extreme geometrical aspect ratios, proper design procedures have been reiterated and validated. It is highly recommended that low-dimensional structures with emphasis on classical mechanics principles should be considered before full-fledged three-dimensional computational analyses. Both Castigliano’s Theorems and Galerkin methods are utilized along with simulation packages such as ADINA and Solidworks. The hierarchical approximation procedures reemphasize important subjects such as planes and shells, strength of materials, structural mechanics, asymptotic and perturbation analysis no longer required in some engineering programs, yet often necessary for the study of complex three-dimensional structural systems.
Bibliographie:ObjectType-Article-1
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ISSN:2673-3161
2673-3161
DOI:10.3390/applmech3020027