Numerical Modelling of Damage Conditions on Herøysund Bridge in Herøy Municipality, Nordland Norway
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https://hdl.handle.net/10037/34259Date
2024-05-15Type
Master thesisMastergradsoppgave
Author
Odongo, ChristopherAbstract
The usability of bridges is highly dependent on their safety conditions since they are
subjected to all sorts of loading that might compromise their ability to withstand stresses over
a prolonged period. As a result, dynamic response evaluations and fracture mechanics
analysis are essential concepts that can help in monitoring the behaviour of bridges, predicting
their lifespan, and planning rehabilitation. Therefore, this research endeavoured to investigate
the structural behaviour of Herøysund Bridge through analytical computation and numerical
simulation of damage conditions in connection with fracture failure anatomization and
dynamic response analysis. The computer-aided design (CAD) model of the bridge, with
induced cracks, was developed and assembled in SolidWorks based on the existing 2D
drawings and photos taken at the bridge site location.
The 3D model was then exported to Ansys mechanical APDL solver for finite element
examination. The overview of analytical computations on structural vibrations and fractural
failure study on bridges were handled. Thereafter, Ansys finite element modelling was
performed with regards to dynamics of cracks propagation, modal parametric analysis,
harmonic response, response spectrum, and random vibration reviews. Results were
generated in terms of stress intensity factors (SIFS) and strain energy release rate (J-integral)
of cracks, mode shapes, natural frequencies, phase angle, peak response location, total and
directional deformations, and equivalent stresses acting on the bridge model. Finally, the
obtained results were discussed, and the conclusions drawn.
Publisher
UiT Norges arktiske universitetUiT The Arctic University of Norway
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Copyright 2024 The Author(s)
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