Finite element convergence analysis for the thermoviscoelastic Joule heating problem
Journal article, 2017
We consider a system of equations that model the temperature, electric potential and deformation of a thermoviscoelastic body. A typical application is a thermistor; an electrical component that can be used e.g. as a surge protector, temperature sensor or for very precise positioning. We introduce a full discretization based on standard finite elements in space and a semi-implicit Euler-type method in time. For this method we prove optimal convergence orders, i.e. second-order in space and first-order in time. The theoretical results are verified by several numerical experiments in two and three dimensions.
Partial differential equations
Thermistor
Thermoviscoelastic
Convergence analysis
Finite elements
Joule heating
Author
Axel Målqvist
Chalmers, Mathematical Sciences, Applied Mathematics and Statistics
University of Gothenburg
Tony Stillfjord
University of Gothenburg
Chalmers, Mathematical Sciences, Applied Mathematics and Statistics
BIT (Copenhagen)
0006-3835 (ISSN) 15729125 (eISSN)
Vol. 57 3 787-810Subject Categories
Mathematical Analysis
DOI
10.1007/s10543-017-0653-1