Journal article
High-Order Numerical Methods for the Thermal Activation of SMA Fibers
Publication Details
Authors: | Gleim, T.; Kuhl, D.; Schleiting, M.; Wetzel, A.; Middendorf, B. |
Publication year: | 2019 |
Journal: | Proceedings in Applied Mathematics & Mechanics |
Pages range : | e201900025 |
Volume number: | 19 |
Issue number: | 1 |
ISSN: | 1617-7061 |
eISSN: | 1617-7061 |
DOI-Link der Erstveröffentlichung: |
Abstract
Abstract The present paper establishes an axisymmetric benchmark model of a conducting loop, which implies an electromagnetic induction. Therein, the MAXWELL equations are demonstrated in a direct formulation (without a potential formulation) with its solution strategy. Standard high-order LAGRANGE shape functions and a harmonic ansatz are used to solve the electromagnetic behavior. Studies regarding the influence of a steel fiber in a block of concrete are analyzed.
Abstract The present paper establishes an axisymmetric benchmark model of a conducting loop, which implies an electromagnetic induction. Therein, the MAXWELL equations are demonstrated in a direct formulation (without a potential formulation) with its solution strategy. Standard high-order LAGRANGE shape functions and a harmonic ansatz are used to solve the electromagnetic behavior. Studies regarding the influence of a steel fiber in a block of concrete are analyzed.
