Design Guidelines in Nonconventional Composite Laminate Optimization

Peeters, Daniël; Abdalla, Mostafa

doi:10.2514/1.c034087

Cited by 21 publications

(2 citation statements)

References 52 publications

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“…They demonstrated that substantial structural improvements in strength, stiffness and buckling load could be reached by applying curved fibers. Other researchers have also contributed to the knowledge of flat tow-steered laminate plates [7][8][9][10][11]. Recent progress in variable-stiffness design and optimization of fiber-reinforced composite structures was summarized by Ghiasi et.…”

Section: Introductionmentioning

confidence: 99%

Buckling and free vibration study of variable and constant-stiffness cylindrical shells

Labans

Bisagni

2019

Composite Structures

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The ability to steer carbon fibre tapes, varying the tow angle, can widen the designs possibilities of cylindrical shells that are one of the main components of aerospace structures. This research presents experimental and numerical investigation of two carbon fibre reinforced plastic cylindrical shellsa cylinder with conventional layup made of unidirectional prepreg and a variable-stiffness cylinder manufactured by applying fibre placement technology. The shells were tested in compression until buckling and later subjected to a vibration analysis. Load-shortening curves and buckling shapes were acquired during the compression tests, while the natural frequencies and the mode shapes were measured during the vibration tests. Both tests provide a useful data set of the mechanical response of the cylinders which can be applied for further validation of models. The acquired experimental results were compared to a simple, approximated numerical model of the variable-stiffness cylinder showing good correlation with the test results.

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Section: Introductionmentioning

confidence: 99%

Buckling and free vibration study of variable and constant-stiffness cylindrical shells

Labans

Bisagni

2019

Composite Structures

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“…This causes variable fiber angle and properties including the lamination stiffness compared with that of the CS composite structure. Thus, the variable fiber angle composite structure is usually called as the variable stiffness (VS) composite structure [9][10][11][12]. Figure 1 shows the layups for two different composite laminates.…”

Section: Introductionmentioning

confidence: 99%

A Buckling Analysis and Optimization Method for a Variable Stiffness Cylindrical Pressure Shell of AUV

Yang¹,

Cao²,

Liu³

2021

JMSE

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The composite cylindrical shell pressure structure is widely used for autonomous underwater vehicle (AUV). To analyze the critical buckling problem of variable stiffness (VS) composite pressure structure of AUV, a discrete finite element (DFE) method based on the curve fiber path function is developed in this work. A design and optimization method based on the radial basis function surrogate method is proposed to optimize the critical buckling pressure for a VS composite cylindrical shell. Both the DFE and surrogate methods are verified to be valid by comparison with the experimental data from the listed references. The effects of the geometric parameter and fiber angle on the critical buckling pressure are studied for different cylindrical shell cases. The results indicate that the proposed simulation model and optimization method are accurate and efficient for the buckling analysis and optimization of a VS composite cylindrical shell. Optimization result shows that the optimum critical buckling pressure for the VS cylindrical shell is improved and is 21.1% larger than that of the constant stiffness cylindrical shell under the same geometric and boundary condition.

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A new thickness parameterization for Discrete Material and Thickness Optimization

Sjølund

Peeters

Lund

2018

Struct Multidisc Optim

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Design Guidelines in Nonconventional Composite Laminate Optimization

Cited by 21 publications

References 52 publications

Buckling and free vibration study of variable and constant-stiffness cylindrical shells

Buckling and free vibration study of variable and constant-stiffness cylindrical shells

A Buckling Analysis and Optimization Method for a Variable Stiffness Cylindrical Pressure Shell of AUV

A new thickness parameterization for Discrete Material and Thickness Optimization

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