Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm

Behzad Abdi; Yob Saed Bin Ismail; Amran Ayob; M. R. Abdullah; Mohd Yazid Bin Yahya

doi:10.4028/www.scientific.net/AMM.234.34

Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm

Behzad Abdi, Yob Saed Bin Ismail, Amran Ayob, M. R. Abdullah, Mohd Yazid Bin Yahya

University of Technology Malaysia

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

Abstract

The most important concern in design of filament-wound composite pressure vessels reflects on the determination of the optimum shape and optimum laminate stacking sequence of composite vessels based on the matrix cracking pressure and burst pressure of composite laminates. In this study the Imperialist Competitive Algorithm (ICA) is used to find the optimum laminate stacking sequence of composite vessels that the design considerations are stability and strength constraints. the matrix cracking pressure of filament-wound composite pressure vessels made of different number of helical layers and different layers of Circumferential layers was calculated by using orthotropic material formulae and then, the burst pressure of composite vessels was calculated by using netting analysis. The optimum laminate stacking sequence of filament winding composite was found to maximize the matrix cracking pressure and the burst pressure by using Imperialist Competitive algorithm.

Original language	English
Title of host publication	Applied Mechanics and Industrial Technologies
Editors	Ford Lumban Gaol
Publisher	Trans Tech Publications Ltd
Pages	34-38
Number of pages	5
ISBN (Electronic)	9783037953211, 9783038134350
ISBN (Print)	9783037855157
DOIs	https://doi.org/10.4028/www.scientific.net/AMM.234.34
Publication status	Published - 29 Nov 2012
Externally published	Yes
Event	2012 International Conference on Applied Mechanics and Manufacturing Technology - Jakarta, Indonesia Duration: 14 Aug 2012 → 15 Aug 2012 https://www.isbn.de/buch/9783037855157/applied-mechanics-and-industrial-technologies

Publication series

Name	Applied Mechanics and Materials
Publisher	Trans Tech Publications Ltd
Volume	234
ISSN (Print)	1660-9336
ISSN (Electronic)	1662-7482

Conference

Conference	2012 International Conference on Applied Mechanics and Manufacturing Technology
Abbreviated title	AMMT 2012
Country/Territory	Indonesia
City	Jakarta
Period	14/08/12 → 15/08/12
Internet address	https://www.isbn.de/buch/9783037855157/applied-mechanics-and-industrial-technologies

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10.4028/www.scientific.net/AMM.234.34Licence: Unspecified

Cite this

Abdi, B., Ismail, Y. S. B., Ayob, A., Abdullah, M. R., & Bin Yahya, M. Y. (2012). Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm. In F. L. Gaol (Ed.), Applied Mechanics and Industrial Technologies (pp. 34-38). (Applied Mechanics and Materials; Vol. 234). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/AMM.234.34

Abdi, Behzad ; Ismail, Yob Saed Bin ; Ayob, Amran et al. / Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm. Applied Mechanics and Industrial Technologies. editor / Ford Lumban Gaol. Trans Tech Publications Ltd, 2012. pp. 34-38 (Applied Mechanics and Materials).

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title = "Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm",

abstract = "The most important concern in design of filament-wound composite pressure vessels reflects on the determination of the optimum shape and optimum laminate stacking sequence of composite vessels based on the matrix cracking pressure and burst pressure of composite laminates. In this study the Imperialist Competitive Algorithm (ICA) is used to find the optimum laminate stacking sequence of composite vessels that the design considerations are stability and strength constraints. the matrix cracking pressure of filament-wound composite pressure vessels made of different number of helical layers and different layers of Circumferential layers was calculated by using orthotropic material formulae and then, the burst pressure of composite vessels was calculated by using netting analysis. The optimum laminate stacking sequence of filament winding composite was found to maximize the matrix cracking pressure and the burst pressure by using Imperialist Competitive algorithm.",

keywords = "Burst pressure, Filament wound, Imperialist competitive algorithm, Matrix cracking, Optimization, Pressure vessel",

author = "Behzad Abdi and Ismail, \{Yob Saed Bin\} and Amran Ayob and Abdullah, \{M. R.\} and \{Bin Yahya\}, \{Mohd Yazid\}",

year = "2012",

month = nov,

day = "29",

doi = "10.4028/www.scientific.net/AMM.234.34",

language = "English",

isbn = "9783037855157",

series = "Applied Mechanics and Materials",

publisher = "Trans Tech Publications Ltd",

pages = "34--38",

editor = "Gaol, \{Ford Lumban\}",

booktitle = "Applied Mechanics and Industrial Technologies",

address = "Switzerland",

note = "2012 International Conference on Applied Mechanics and Manufacturing Technology, AMMT 2012 ; Conference date: 14-08-2012 Through 15-08-2012",

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Abdi, B, Ismail, YSB, Ayob, A, Abdullah, MR & Bin Yahya, MY 2012, Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm. in FL Gaol (ed.), Applied Mechanics and Industrial Technologies. Applied Mechanics and Materials, vol. 234, Trans Tech Publications Ltd, pp. 34-38, 2012 International Conference on Applied Mechanics and Manufacturing Technology, Jakarta, Indonesia, 14/08/12. https://doi.org/10.4028/www.scientific.net/AMM.234.34

Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm. / Abdi, Behzad; Ismail, Yob Saed Bin; Ayob, Amran et al.
Applied Mechanics and Industrial Technologies. ed. / Ford Lumban Gaol. Trans Tech Publications Ltd, 2012. p. 34-38 (Applied Mechanics and Materials; Vol. 234).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm

AU - Abdi, Behzad

AU - Ismail, Yob Saed Bin

AU - Ayob, Amran

AU - Abdullah, M. R.

AU - Bin Yahya, Mohd Yazid

PY - 2012/11/29

Y1 - 2012/11/29

N2 - The most important concern in design of filament-wound composite pressure vessels reflects on the determination of the optimum shape and optimum laminate stacking sequence of composite vessels based on the matrix cracking pressure and burst pressure of composite laminates. In this study the Imperialist Competitive Algorithm (ICA) is used to find the optimum laminate stacking sequence of composite vessels that the design considerations are stability and strength constraints. the matrix cracking pressure of filament-wound composite pressure vessels made of different number of helical layers and different layers of Circumferential layers was calculated by using orthotropic material formulae and then, the burst pressure of composite vessels was calculated by using netting analysis. The optimum laminate stacking sequence of filament winding composite was found to maximize the matrix cracking pressure and the burst pressure by using Imperialist Competitive algorithm.

AB - The most important concern in design of filament-wound composite pressure vessels reflects on the determination of the optimum shape and optimum laminate stacking sequence of composite vessels based on the matrix cracking pressure and burst pressure of composite laminates. In this study the Imperialist Competitive Algorithm (ICA) is used to find the optimum laminate stacking sequence of composite vessels that the design considerations are stability and strength constraints. the matrix cracking pressure of filament-wound composite pressure vessels made of different number of helical layers and different layers of Circumferential layers was calculated by using orthotropic material formulae and then, the burst pressure of composite vessels was calculated by using netting analysis. The optimum laminate stacking sequence of filament winding composite was found to maximize the matrix cracking pressure and the burst pressure by using Imperialist Competitive algorithm.

KW - Burst pressure

KW - Filament wound

KW - Imperialist competitive algorithm

KW - Matrix cracking

KW - Optimization

KW - Pressure vessel

UR - https://www.scopus.com/pages/publications/84871594493

UR - https://www.scientific.net/book/applied-mechanics-and-industrial-technologies/978-3-03813-435-0

U2 - 10.4028/www.scientific.net/AMM.234.34

DO - 10.4028/www.scientific.net/AMM.234.34

M3 - Conference contribution

AN - SCOPUS:84871594493

SN - 9783037855157

T3 - Applied Mechanics and Materials

SP - 34

EP - 38

BT - Applied Mechanics and Industrial Technologies

A2 - Gaol, Ford Lumban

PB - Trans Tech Publications Ltd

T2 - 2012 International Conference on Applied Mechanics and Manufacturing Technology

Y2 - 14 August 2012 through 15 August 2012

ER -

Abdi B, Ismail YSB, Ayob A, Abdullah MR, Bin Yahya MY. Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm. In Gaol FL, editor, Applied Mechanics and Industrial Technologies. Trans Tech Publications Ltd. 2012. p. 34-38. (Applied Mechanics and Materials). doi: 10.4028/www.scientific.net/AMM.234.34

Multi-objective optimization of filament wound composite pressure vessels based on weight and matrix cracking/ burst pressure using imperialist competitive algorithm

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