Development, numerical demonstration and experimental verification of a method for model updating of boundary conditions
- Authors
- Silva Salazar, Christian Eduardo
- Format
- MasterThesis
- Status
- publishedVersion
- Description
The study of vibrations in beams has been largely addressed by authors and researchers. However, relatively few researchers have considered the case of unknown boundary conditions, as usually it is reasonable to assume the classical cases such as simply supported, clamped or free. Indeed, there are a wide variety of boundarycondition con gurations, each one representing a whole di erent problem with its own modal characteristics. A method for updating experimental beam models to speci cally address the issue of unknown boundary conditions is proposed. This methodology takes advantage of vector comparison techniques such as the modal assurance criterion and the dot product to determine the degree of linear relationship between two mode shapes systematically and iteratively until an acceptable parametric match is found. This thesis includes the phases of development, numerical demonstration and experimental veri cation. In the section devoted to development, a detailed explanation of the method is given; the numerical demonstration section is intended to demonstrate the capabilities of the method using mathematical models only; and nally, in the experimental veri cation section, a case study example is developed using real experiment data. At the end of this thesis, a generalized procedure is described so the method can be applied to beam-behaving structures and ultimately any engineering model in which boundary conditions have an important role.
- Publication Year
- 2014
- Language
- eng
- Topic
- MONITOREO E INTEGRIDAD ESTRUCTURAL
VIBRACIONES Y AN?LISIS MODAL
AN?LISIS DE ELEMENTOS FINITOS
ACTUALIZACI?N DE MODELOS
VIBRACIONES EN VIGAS
CONDICIONES DE FRONTERA
- Repository
- Repositorio SENESCYT
- Rights
- openAccess
- License