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Dr LOUISE BROWN's Outputs (25)

Numerical prediction of in-plane permeability for multilayer woven fabrics with manufacture-induced deformation (2015)
Journal Article
Zeng, X., Endruweit, A., Brown, L. P., & Long, A. C. (2015). Numerical prediction of in-plane permeability for multilayer woven fabrics with manufacture-induced deformation. Composites Part A: Applied Science and Manufacturing, 77, 266-274. https://doi.org/10.1016/j.compositesa.2015.03.027

A unit cell based Computational Fluid Dynamics model is presented for predicting permeability of multilayer fabric structures. In Liquid Composites Moulding processes, fabric lay-ups undergo significant manufacture-induced deformation, combining comp... Read More about Numerical prediction of in-plane permeability for multilayer woven fabrics with manufacture-induced deformation.

Geometrical modelling of 3D woven reinforcements for polymer composites: Prediction of fabric permeability and composite mechanical properties (2013)
Journal Article
Zeng, X., Brown, L. P., Endruweit, A., Matveev, M., & Long, A. C. (2014). Geometrical modelling of 3D woven reinforcements for polymer composites: Prediction of fabric permeability and composite mechanical properties. Composites Part A: Applied Science and Manufacturing, 56, 150-160. https://doi.org/10.1016/j.compositesa.2013.10.004

For a 3D orthogonal carbon fibre weave, geometrical parameters characterising the unit cell were quantified using micro-Computed Tomography and image analysis. Novel procedures for generation of unit cell models, reflecting systematic local variation... Read More about Geometrical modelling of 3D woven reinforcements for polymer composites: Prediction of fabric permeability and composite mechanical properties.

Predicting the coefficient of thermal expansion for textile composites based on a unit cell approach (2013)
Presentation / Conference Contribution
Brown, L. P., Zeng, X., Long, A. C., Brooks, R., & Jones, I. A. Predicting the coefficient of thermal expansion for textile composites based on a unit cell approach. Presented at Texcomp-11 Conference

The study focuses on unit cell FE modelling to predict coefficients of thermal expansion (CTEs) for sheared fabric laminates. Shear, as a dominant deformation mode in textile composites forming, introduces high degrees of anisotropy in both elasticit... Read More about Predicting the coefficient of thermal expansion for textile composites based on a unit cell approach.

Recent developments in the realistic geometric modelling of textile structures using TexGen (2013)
Presentation / Conference Contribution
Brown, L. P., Zeng, X., Long, A., & Jones, I. A. Recent developments in the realistic geometric modelling of textile structures using TexGen. Presented at 1st International Conference on Digital Technologies for the Textile Industries

Realistic geometric representation of fabrics is essential for modelling of mechanical and physical properties of textiles and textile composites. It is also advantageous to be able to generate those models quickly and easily. Recent developments in... Read More about Recent developments in the realistic geometric modelling of textile structures using TexGen.

Advanced geometry modelling of 3D woven reinforcements in polymer composites: processing and performance analysis (2012)
Presentation / Conference Contribution
Zeng, X., Brown, L. P., Endruweit, A., & Long, A. C. Advanced geometry modelling of 3D woven reinforcements in polymer composites: processing and performance analysis. Presented at Fourth World Conference on 3D Fabrics and their Applications

Numerical methods have become increasingly effective tools for analysis and design of composite materials. This study investigates how the inclusion of geometrical variations in modelling 3D woven fabrics affects the accuracy of numerical predictions... Read More about Advanced geometry modelling of 3D woven reinforcements in polymer composites: processing and performance analysis.