A continuum model for entangled fibres

M. E. M. LEE; H. OCKENDON

doi:10.1017/S0956792505006170

Abstract

Motivated by the study of fibre dynamics in the carding machine, a continuum model for the motion of a medium composed of fibres is derived under the assumption that the dominant forces are due to fibre-fibre interactions and that the material is in tension. To characterise the material we include the averaged values of density and velocity and introduce variables to describe the mean direction, alignment and entanglement. We assume that the bulk stress of the material depends on the density, entanglement, degree of alignment, average direction and shear-rates. A kinematic equation for average direction and two proposed heuristic laws for the evolution of entanglement and degree of alignment are given to close the system. Extensional and shearing simulations are in good qualitative agreement with experimental results.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Lee, Michael E. M. Kozyreff, Gregory Howell, Peter D. and Ockendon, Hilary 2006. Model for the breakup of a tuft of fibers. Physical Review E, Vol. 74, Issue. 4,

Lee, M. E. M. and Ockendon, H. 2006. The Transfer of Fibres in the Carding Machine. Journal of Engineering Mathematics, Vol. 54, Issue. 3, p. 261.

GREEN, J. EDWARD F. and FRIEDMAN, AVNER 2008. The extensional flow of a thin sheet of incompressible, transversely isotropic fluid. European Journal of Applied Mathematics, Vol. 19, Issue. 3, p. 225.

DYSON, R. J. and JENSEN, O. E. 2010. A fibre-reinforced fluid model of anisotropic plant cell growth. Journal of Fluid Mechanics, Vol. 655, Issue. , p. 472.

Londoño-Hurtado, Alejandro and Osswald, Tim A. 2010. Modeling of Fiber Jamming Phenomena during Processing of Fiber Reinforced Composite Parts. Key Engineering Materials, Vol. 425, Issue. , p. 31.

Han, Chenchen Wei, Mengyuan Xue, Wenliang and Cheng, Longdi 2014. Numerical simulation of fiber strands on condensing effect of suction slot in compact spinning with lattice apron. Fibers and Polymers, Vol. 15, Issue. 5, p. 1084.

Dyson, R. J. Green, J. E. F. Whiteley, J. P. and Byrne, H. M. 2016. An investigation of the influence of extracellular matrix anisotropy and cell–matrix interactions on tissue architecture. Journal of Mathematical Biology, Vol. 72, Issue. 7, p. 1775.

Holloway, C. R. Cupples, G. Smith, D. J. Green, J. E. F. Clarke, R. J. and Dyson, R. J. 2018. Influences of transversely isotropic rheology and translational diffusion on the stability of active suspensions. Royal Society Open Science, Vol. 5, Issue. 8, p. 180456.

HOLLOWAY, C. R. SMITH, D. J. and DYSON, R. J. 2019. Linear Rayleigh–Bénard stability of a transversely isotropic fluid. European Journal of Applied Mathematics, Vol. 30, Issue. 04, p. 659.

He, Shanshan Cheng, Longdi Xue, Wenliang Lu, Zhong and Chen, Liguo 2019. Three-dimensional numerical simulation of air flow and fiber dynamic in carding region in carding machine. Textile Research Journal, Vol. 89, Issue. 19-20, p. 3916.

Nimkulrat, Nithikul and Nurmi, Tuomas 2019. Handbook of the Mathematics of the Arts and Sciences. p. 1.

Nimkulrat, Nithikul and Nurmi, Tuomas 2021. Handbook of the Mathematics of the Arts and Sciences. p. 381.

Hopwood, M. J. Harding, B. Green, J. E. F. and Dyson, R. J. 2023. Thin film extensional flow of a transversely isotropic viscous fluid. Physical Review Fluids, Vol. 8, Issue. 11,

Article contents

A continuum model for entangled fibres

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

A continuum model for entangled fibres

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests