Non-geodesic filament winding on generic shells of revolution

Koussios, Sotiris; Bergsma, Otto; Mitchell, Geoffrey R.

doi:10.1243/146442005x10184

Cited by 24 publications

(29 citation statements)

References 3 publications

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“…C f represents the cover degree of filament band after a layer of finished winding. Combining equation 21, cover factor C f is expressed as Combining equation (22), the overlap factor of filament band is obtained as…”

Section: R Z B N Cy N Ceil CImentioning

confidence: 99%

Design of winding pattern of filament-wound composite pressure vessel with unequal openings based on non-geodesics

Guo

Wen

Xiao

et al. 2020

Journal of Engineered Fibers and Fabrics

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In this article, we proposed a new approach to design the winding patterns of filament-wound composite pressure vessel with unequal polar openings with non-geodesics. To ensure the continuity of winding angles between trajectories along the cylinder and the dome, the non-geodesics for cylindrical part were used. The developed winding patterns of the vessels were simulated using the MATLAB software to verify the feasibility of the acquired trajectories. To demonstrate the performance in designing the winding path for big polar ratios, we analyzed vessels with polar pole ratios of 1:2–1:4, respectively. The developed winding patterns have successfully achieved uniform fiber distributions along the mandrel without severe overlap, except for the polar pole regions. To avoid the severe overlap between filament bands, we further studied the relationship among the winding pattern, bandwidth, and the number of tangent points, and derived a suitable bandwidth based on the winding pattern. These simulated results proved the effectiveness of the developed method in design of winding pattern with unequal polar openings.

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Section: R Z B N Cy N Ceil CImentioning

confidence: 99%

Design of winding pattern of filament-wound composite pressure vessel with unequal openings based on non-geodesics

Guo

Wen

Xiao

et al. 2020

Journal of Engineered Fibers and Fabrics

View full text Add to dashboard Cite

show abstract

“…The winding trajectories and pattern architecture can be numerically simulated which also facilitates non-geodesic winding [33][34][35]. However, the geometry of the filament wound part limits the choice of the winding angle.…”

Section: Process Descriptionmentioning

confidence: 99%

Manufacturing and Processing of Polymer Composites

Schuster¹,

Duhovic²,

Bhattacharyya³

2012

Synthetic Polymer-Polymer Composites

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“…Filament winding on doubly-curved shells of revolution has gained increasing attention in recent years. Koussios et al 15 established first-order differential equations describing non-geodesic trajectories on an ellipsoid, cone, and sphere mathematically, but the external load was not considered in the model. Min et al 16 proposed a topological mapping algorithm for optimal winding trajectory on an elliptical shell.…”

Section: Introductionmentioning

confidence: 99%

“…With Eq. (1), the parametric equation of the hyperboloid of one sheet at the curvilinear coordinate system is easily written as where r = R θ sinϕ.The parametric equation of the hyperboloid of one sheet at the cylindrical coordinate system is easily written as where The differential equation of non-geodesic trajectories is written as15…”

mentioning

confidence: 99%

Stability of filament-wound hyperbolic flexible pipes under internal pressure based on non-geodesic winding

Shuai

2021

Sci Rep

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Filament-wound flexible pipes are widely used to transport fluid in pipeline systems, proved extremely useful in marine engineering. The hyperbolic flexible pipes have good vibration suppression performance, but they are easily deformed under internal pressure. This paper focuses on the stability of hyperbolic flexible pipes based on the composite Reissner shell theory and the transfer-matrix method. The nonlinear stretch of the reinforced filament and the fiber bridge effect are considered in the model. The calculation results show that a large winding angle reduces the deformation and the meridional stress. The available initial winding angle is limited by the geometry and the slippage coefficient of flexible pipe. The reinforced filament of high tensile modulus will reduce the deformation of the pipe. Compared with the geodesic winding trajectory, non-geodesic winding trajectories improves the stability of the pipe. The theoretical result is verified by the finite element analysis. The investigation method and results present in this paper will guide the design and optimization of more novel flexible pipes in the future.

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Non-geodesic filament winding on generic shells of revolution

Cited by 24 publications

References 3 publications

Design of winding pattern of filament-wound composite pressure vessel with unequal openings based on non-geodesics

Design of winding pattern of filament-wound composite pressure vessel with unequal openings based on non-geodesics

Manufacturing and Processing of Polymer Composites

Stability of filament-wound hyperbolic flexible pipes under internal pressure based on non-geodesic winding

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