Failure Analysis of Composite Pipes Subjected to Bending: Classical Laminated Plate Theory vs. 3D Elasticity Solution

Tianyu Wang; Oleksandr Menshykov; Marina Menshykova

doi:10.1007/978-3-031-34099-4_26

Failure Analysis of Composite Pipes Subjected to Bending: Classical Laminated Plate Theory vs. 3D Elasticity Solution

Tianyu Wang, Oleksandr Menshykov^* (Corresponding Author), Marina Menshykova

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Chapter (peer-reviewed) › peer-review

Abstract

Interest in products made from fibre-reinforced polymer composites is increasing in the oil and gas industry due to their high specific strength, as well as their overall weight reduction and resistance to various liquids. Taking into account that oil and gas pipelines are working in complex and hazardous condition, filament-wound composite pipes have been identified as the best alternative to conventional oil pipelines in the future due to their ability to be tailored for specific purposes. Due to this, it is important to study the properties of fibre-reinforced polymer composite pipe in service condition. Improving performance to achieve better structural quality is of paramount importance.

Original language	English
Title of host publication	Integral Methods in Science and Engineering
Subtitle of host publication	Analytical and Computational Procedures (IMSE 2022)
Editors	C. Constanda, B.E. Bodmann, P.J. Harris
Place of Publication	Cham
Publisher	Birkhäuser
Chapter	26
Pages	321-333
Number of pages	13
ISBN (Electronic)	978-3-031-34099-4
ISBN (Print)	978-3-031-34098-7
DOIs	https://doi.org/10.1007/978-3-031-34099-4_26
Publication status	Published - 1 Nov 2023
Event	IMSE 2022: Integral Methods in Science and Engineering - Virtual event Duration: 25 Jul 2022 → 29 Jul 2022

Conference

Conference	IMSE 2022
Abbreviated title	IMSE 2022
Period	25/07/22 → 29/07/22

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Wang, T., Menshykov, O., & Menshykova, M. (2023). Failure Analysis of Composite Pipes Subjected to Bending: Classical Laminated Plate Theory vs. 3D Elasticity Solution. In C. Constanda, B. E. Bodmann, & P. J. Harris (Eds.), Integral Methods in Science and Engineering : Analytical and Computational Procedures (IMSE 2022) (pp. 321-333). Birkhäuser. https://doi.org/10.1007/978-3-031-34099-4_26

Failure Analysis of Composite Pipes Subjected to Bending: Classical Laminated Plate Theory vs. 3D Elasticity Solution. / Wang, Tianyu; Menshykov, Oleksandr (Corresponding Author); Menshykova, Marina.
Integral Methods in Science and Engineering : Analytical and Computational Procedures (IMSE 2022). ed. / C. Constanda; B.E. Bodmann; P.J. Harris. Cham: Birkhäuser, 2023. p. 321-333.

Research output: Chapter in Book/Report/Conference proceeding › Chapter (peer-reviewed) › peer-review

Wang, T, Menshykov, O & Menshykova, M 2023, Failure Analysis of Composite Pipes Subjected to Bending: Classical Laminated Plate Theory vs. 3D Elasticity Solution. in C Constanda, BE Bodmann & PJ Harris (eds), Integral Methods in Science and Engineering : Analytical and Computational Procedures (IMSE 2022). Birkhäuser, Cham, pp. 321-333, IMSE 2022, 25/07/22. https://doi.org/10.1007/978-3-031-34099-4_26

Wang T, Menshykov O , Menshykova M. Failure Analysis of Composite Pipes Subjected to Bending: Classical Laminated Plate Theory vs. 3D Elasticity Solution. In Constanda C, Bodmann BE, Harris PJ, editors, Integral Methods in Science and Engineering : Analytical and Computational Procedures (IMSE 2022). Cham: Birkhäuser. 2023. p. 321-333 doi: 10.1007/978-3-031-34099-4_26

Wang, Tianyu ; Menshykov, Oleksandr ; Menshykova, Marina. / Failure Analysis of Composite Pipes Subjected to Bending : Classical Laminated Plate Theory vs. 3D Elasticity Solution. Integral Methods in Science and Engineering : Analytical and Computational Procedures (IMSE 2022). editor / C. Constanda ; B.E. Bodmann ; P.J. Harris. Cham : Birkhäuser, 2023. pp. 321-333

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abstract = "Interest in products made from fibre-reinforced polymer composites is increasing in the oil and gas industry due to their high specific strength, as well as their overall weight reduction and resistance to various liquids. Taking into account that oil and gas pipelines are working in complex and hazardous condition, filament-wound composite pipes have been identified as the best alternative to conventional oil pipelines in the future due to their ability to be tailored for specific purposes. Due to this, it is important to study the properties of fibre-reinforced polymer composite pipe in service condition. Improving performance to achieve better structural quality is of paramount importance.",

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AB - Interest in products made from fibre-reinforced polymer composites is increasing in the oil and gas industry due to their high specific strength, as well as their overall weight reduction and resistance to various liquids. Taking into account that oil and gas pipelines are working in complex and hazardous condition, filament-wound composite pipes have been identified as the best alternative to conventional oil pipelines in the future due to their ability to be tailored for specific purposes. Due to this, it is important to study the properties of fibre-reinforced polymer composite pipe in service condition. Improving performance to achieve better structural quality is of paramount importance.

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Failure Analysis of Composite Pipes Subjected to Bending: Classical Laminated Plate Theory vs. 3D Elasticity Solution

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