Tesis doctoral de Ernest Bernat Masó
A significant number of buildings are supported by load-bearing masonry walls. The preservation of these worldwide used structures is a sustainable alternative. However, there is little research about the structural response of these particular elements if compared with others like concrete or steels framed structures. Hence, a further study of the load-bearing masonry walls is necessary as a starting point for the preservation activities. the load-bearing masonry walls are usually subjected to a vertical eccentric loading condition, which is related with their complex structural response. This response is characterised by the second-order bending effects due to the eccentricity of the load, the non-linear compressive response of the masonry and its almost negligible tensile strength. Thus, strengthening these walls, in order to increase their load-bearing capacity, is an interesting upgrading alternative to enhance their life-cycle. in this thesis, an experimental campaign has been carried out. It consisted of hundreds of characterisation tests to obtain the mechanical properties of the component materials which have been used to build twenty-nine full-scale walls. Twenty of these walls were unreinforced and the other nine were trm (textile reinforced mortar) strengthened. All of them have been tested under eccentric compressive loading conditions. The analysis of the strengthened walls has allowed studying the influence of the strengthening mortar type on the load-bearing capacity. The effects using anchors or embedding different types of fibre grids have been also analysed. a bidimensional (2d) simplified micro-model has been implemented to analyse these structural cases. This numerical tool has been validated using the data from the experimental campaign. Finally, analytical methodologies have been proposed to calculate the load-bearing capacity of unreinforced and trm-strengthened brick masonry walls. Similarly, two current standards, eurocode-6 and aci-530 have been applied to the analysed cases and their results have been compared with the experimental ones. the results show that the trm provides a load-bearing capacity increase over 100% and homogenises the structural response, which becomes stiffer. Regarding the simulations, the proposed numerical model provides accurate results, which are better for the cases with larger slenderness or larger eccentricity of the applied load. Finally, the proposed analytical methods provide acceptable results, which are more accurate than the ones obtained by applying the formulations included in the analysed standards.
Datos académicos de la tesis doctoral «Analysis of unreinforced and trm-strengthened brick masonry walls subjected to eccentric axial load«
- Título de la tesis: Analysis of unreinforced and trm-strengthened brick masonry walls subjected to eccentric axial load
- Autor: Ernest Bernat Masó
- Universidad: Politécnica de catalunya
- Fecha de lectura de la tesis: 07/02/2014
Dirección y tribunal
- Director de la tesis
- LLuis Gil Espert
- Tribunal
- Presidente del tribunal: José tomás San José lombera
- daniel vitorino de Castro oliveira (vocal)
- (vocal)
- (vocal)