Abstract
The human cornea is required to exhibit specific material properties to maintain its regular shape under typical intraocular pressures which then allow for its correct optical functionality. In this thesis, the basis of continuum solid mechanics and the finite element method are introduced. We use finite element modelling to simulate the extension of an effective-1d, linear-elastic bar, a cornea-like body governed by Poisson's equation, and the deformation of a loaded, linear-elastic, cube. Preliminary results for the deformation of a simulated, linear-elastic, cornea have also been achieved using the finite element approach.
Author Keywords: continuum solid mechanics, corneal biomechanics, finite element method, intraocular pressure
Item Description
Type
Contributors
Creator (cre): Song, Yuchen
Thesis advisor (ths): Shiell, Rayf
Degree committee member (dgc): Atkinson, Bill
Degree committee member (dgc): de Haan, Hendrick
Degree granting institution (dgg): Trent University
Date Issued
2020
Date (Unspecified)
2020
Place Published
Peterborough, ON
Form
Extent
128 pages
Rights
Copyright is held by the author, with all rights reserved, unless otherwise noted.
Subject (Topical)
Local Identifier
TC-OPET-10802
Publisher
Trent University
Degree
Master of Science (M.Sc.): Materials Science