Dr Chris Breward

MA, MSc, DPhil

Associate Director, Oxford Centre for Collaborative Applied Mathematics

Personal Web Page

eMail: Chris [dot] Breward [-at-] maths [dot] ox [dot] ac [dot] uk
Contact Form

Phone Number(s):

Reception/Secretary: +44 1865 273525
Direct: +44 1865 270505

Office: RI.2.6a

Departmental Address:

Mathematical Institute
24-29 St Giles'
Oxford
OX1 3LB
England

Research Interests:

Fluid mechanics; Surfactants; Mathematical modelling for industry and the biosciences. I am working on modelling tear films at the moment.

Recent Publications (from MathSciNet):

MR2803467 Hocking, G. C.; Sweatman, W. L.; Fitt, A. D.; Breward, C. Deformations during jet-stripping in the galvanizing process. J. Engrg. Math. 70 (2011), no. 1-3, 297–306, 76T99

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MR2799935 (2012b:92035) Aydemir, E.; Breward, C. J. W.; Witelski, T. P. The effect of polar lipids on tear film dynamics. Bull. Math. Biol. 73 (2011), no. 6, 1171–1201, 92C40

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MR2511475 (2010h:76073) Dyson, R. J.; Brander, J.; Breward, C. J. W.; Howell, P. D. Long-wavelength stability of an unsupported multilayer liquid film falling under gravity. J. Engrg. Math. 64 (2009), no. 3, 237–250, 76E05 (76A20)

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MR2230302 (2006m:76012) White, G. S.; Breward, C. J. W.; Howell, P. D.; Young, R. J. S. A model for the screen-printing of Newtonian fluids. J. Engrg. Math. 54 (2006), no. 1, 49–70, 76A20 (76D08)

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MR2128609 (2005j:76091) Breward, C. J. W.; Howell, P. D. Straining flow of a micellar surfactant solution. European J. Appl. Math. 15 (2004), no. 5, 511–531, 76T99

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MR2010886 (2004h:76074) Howell, P. D.; Breward, C. J. W. Mathematical modelling of the overflowing cylinder experiment. J. Fluid Mech. 474 (2003), 275–298, 76D99 (76A20 76T99)

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MR1920584 (2003d:92016) Breward, C. J. W.; Byrne, H. M.; Lewis, C. E. The role of cell-cell interactions in a two-phase model for avascular tumour growth. J. Math. Biol. 45 (2002), no. 2, 125–152, 92C50 (92C37)

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MR1870857 (2002i:92009) Breward, C. J. W.; Byrne, H. M.; Lewis, C. E. Modelling the interactions between tumour cells and a blood vessel in a microenvironment within a vascular tumour. European J. Appl. Math. 12 (2001), no. 5, 529–556, 92C50 (76Z05 92C30)

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More publications

Teaching:

I teach at Christ Church

Last updated by on Thu, 12/04/2012 - 9:49am.
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Dr Chris Breward

Dr Chris Breward

Mathematical Institute

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