Shape optimization of interior cutouts in composite panels: Structural Optimization

Brian G Falzon; Grant P Steven; Mike Y Xie

doi:10.1007/BF01279653

Shape optimization of interior cutouts in composite panels: Structural Optimization

Brian G Falzon, Grant P Steven, Mike Y Xie

School of Engineering, Design & Built Environment

Research output: Contribution to journal › Article › peer-review

21 Citations (Scopus)

Abstract

This paper presents validated results of the optimization of cutouts in laminated carbon-fibre composite panels by adapting a recently developed optimization procedure known as Evolutionary Structural Optimization (ESO). An initial small cutout was introduced into each finite element model and elements were removed from around this cutout based on a predefined rejection criterion. In the examples presented, the limiting ply within each plate element around the cutout was determined based on the Tsai-Hill failure index. Plates with values below the product of the average Tsai-Hill number and a rejection ratio (RR) were subsequently removed. This process was iterated until a steady state was reached and the RR was then incremented by an evolutionary rate (ER). The above steps were repeated until a cutout of a desired area was achieved.

Original language	English
Pages (from-to)	43-49
Number of pages	7
Journal	Struct Opt
Volume	11
Issue number	1
DOIs	https://doi.org/10.1007/BF01279653
Publication status	Published - 1996

Keywords

Carbon fibers Failure analysis Finite element method Geometry Iterative methods Laminated composites Mathematical models Optimization Structural panels Evolutionary structural optimization Interior cutouts Limiting ply Rejection ratio Shape optimization Steady state conditions Tsai-Hill failure index Structural design

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10.1007/BF01279653

https://link.springer.com/content/pdf/10.1007/BF01279653.pdf

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title = "Shape optimization of interior cutouts in composite panels: Structural Optimization",

abstract = "This paper presents validated results of the optimization of cutouts in laminated carbon-fibre composite panels by adapting a recently developed optimization procedure known as Evolutionary Structural Optimization (ESO). An initial small cutout was introduced into each finite element model and elements were removed from around this cutout based on a predefined rejection criterion. In the examples presented, the limiting ply within each plate element around the cutout was determined based on the Tsai-Hill failure index. Plates with values below the product of the average Tsai-Hill number and a rejection ratio (RR) were subsequently removed. This process was iterated until a steady state was reached and the RR was then incremented by an evolutionary rate (ER). The above steps were repeated until a cutout of a desired area was achieved.",

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AU - Steven, Grant P

AU - Xie, Mike Y

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AB - This paper presents validated results of the optimization of cutouts in laminated carbon-fibre composite panels by adapting a recently developed optimization procedure known as Evolutionary Structural Optimization (ESO). An initial small cutout was introduced into each finite element model and elements were removed from around this cutout based on a predefined rejection criterion. In the examples presented, the limiting ply within each plate element around the cutout was determined based on the Tsai-Hill failure index. Plates with values below the product of the average Tsai-Hill number and a rejection ratio (RR) were subsequently removed. This process was iterated until a steady state was reached and the RR was then incremented by an evolutionary rate (ER). The above steps were repeated until a cutout of a desired area was achieved.

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Shape optimization of interior cutouts in composite panels: Structural Optimization

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