Gillow, K. A. (1998) Codimensiontwo free boundary problems. PhD thesis, University of Oxford.

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Abstract
Over the past 30 years the study of free boundary problems has stimulated much work. However, there exists a widely occurring, but little studied subclass of free boundary problems in which the free boundary has dimension two fewer than that of the underlying space rather than the more commonly studied case of one less. These problems are called `codimensiontwo' free boundary problems.
In Chapter 1 the typical geometries required for such problems, the main mathematical techniques and the methodology used are discussed. Then, in Chapter 2, the techniques required to solve them are demonstrated using the particular example of the water entry problem. Further results for the water entry problem are then derived including an analysis of the relatively poorly understood water exit problem. In Chapter 3 a review is given of some classical contact and crack problems in solid mechanics. The inclusion of a cohesive zone in a dynamic typeIII crack problem is considered. The Muskhelishvili potential method is presented and used to solve both a contact and crack problem. This enables the solution of a typeI crack problem relating to an ink delivery system to be found. In Chapter 4 a problem posed by car windscreen forming is addressed. A local solution near a corner is analysed to explain when and how point forces occur at the corners of the frame on which the simply supported windscreen rests. Then the full problem is solved numerically for different types of boundary condition. Chapters 5 and 6 deal with several sintering problems in viscous flow highlighting the value of the methodology introduced in Chapter 1. It will be shown how the Muskhelishvili potential method also carries over to Stokes flow problems. The difficulties of matching to an inner as opposed to an outer region are investigated. Last two interface problems between immiscible liquids are considered which show how the solution procedure is adapted when the field equation in the thin region is nontrivial. In the final chapter results are summarised, open problems listed and conclusions drawn.
Item Type:  Thesis (PhD) 

Subjects:  D  G > Geophysics H  N > Mechanics of deformable solids O  Z > Partial differential equations A  C > Approximations and expansions D  G > Fluid mechanics H  N > Numerical analysis 
Research Groups:  Oxford Centre for Industrial and Applied Mathematics 
ID Code:  30 
Deposited By:  Keith A. Gillow 
Deposited On:  10 Mar 2004 
Last Modified:  29 May 2015 18:15 
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