eprintid: 15
rev_number: 4
eprint_status: archive
userid: 4
dir: disk0/00/00/00/15
datestamp: 2004-06-10
lastmod: 2015-05-29 19:45:25
status_changed: 2009-04-08 16:51:58
type: report
metadata_visibility: show
item_issues_count: 0
creators_name: Breward, C.J.W.
creators_name: Dellar, P.
creators_name: Edwards, C.M.
creators_name: Kaouri, K.
creators_name: Richardson, G.
creators_name: Wilson, S.K.
contributors_name: Allwright, D.J.
contributors_name: Byatt-Smith, J.
contributors_name: Fidler, D.
contributors_name: Grammatika, M.
contributors_name: Grief, A.
contributors_name: Hinch, E.J.
contributors_name: Koop, A.
contributors_name: Kozyreff, G.
contributors_name: Lacey, A.A.
contributors_name: Ockendon, J.R.
contributors_name: Please, C.P.
contributors_name: Voong, C.
title: Mathematical modelling of pipe-flow and extrusion of composite materials
ispublished: pub
subjects: food
studygroups: esgi43
companyname: Unilever Research
full_text_status: public
problem_statement: There exist a large number of industrial applications which involve the extrusion of aerated composite materials through an orifice, such as styrofoam, insulation and confectionery. Often such delicate structures change due to shear and pressure fields experienced on extrusion. The Study Group was asked to investigate the influence of these shear and pressure fields on the structure of aerated composite materials, particularly the degree of aeration retained.
date: 2002-04
date_type: published
pages: 16
citation:   Breward, C.J.W. and Dellar, P. and Edwards, C.M. and Kaouri, K. and Richardson, G. and Wilson, S.K.  (2002) Mathematical modelling of pipe-flow and extrusion of composite materials.  [Study Group Report]     
document_url: http://miis.maths.ox.ac.uk/miis/15/1/Pipe-flow_and_extrusion_of_composite_materials.pdf