Warping Torsion in 3D Beam Finite Elements
Studenteropgave: Speciale (inkl. HD afgangsprojekt)
- Dennis Nedergaard Olsen
- Lynge Udengaard Andersen
4. semester, Bygge- og anlægskonstruktion, Kandidat (Kandidatuddannelse)
This project deals with torsion both analytically and numerically. The report starts by
presenting analytical derivations of spatial beam theory from which everything originates. Torsion can be looked at in two ways, which depend on the support and load condition. Both scenarios, homogeneous torsion and non-homogeneous, are investigated analytically. Furthermore, non-homogeneous torsion is analysed numerically in a home-made MATLAB code and compared with results from an advanced numerical commercial software program ABAQUS.
presenting analytical derivations of spatial beam theory from which everything originates. Torsion can be looked at in two ways, which depend on the support and load condition. Both scenarios, homogeneous torsion and non-homogeneous, are investigated analytically. Furthermore, non-homogeneous torsion is analysed numerically in a home-made MATLAB code and compared with results from an advanced numerical commercial software program ABAQUS.
Sprog | Engelsk |
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Udgivelsesdato | 10 jun. 2015 |
Antal sider | 56 |
Emneord | beam finite element, finite element, warping, torsion, vlasov torsion, beam theory, non-homogeneous torsion |
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