Masonry is a composite material made of masonry units bonded together with mortar. A large number of historical buildings constructed using masonry can be found all over the world. Little or no seismic loading was considered when they were built. Therefore, masonry structures often need to be retrofitted or strengthened. This research proposed a new strengthening approach using a collar-jointed technique. Namely, the approach is implemented by building another masonry wall parallel to the existing single-leaf wall and bonding the two together using a mortar collar joint. Furthermore, collar-jointed masonry wall construction is also a popular construction system in reality. This thesis considers two different types of collar wall strengthening applications: pre- and post-damaged walls. The results found out that the pre-damaged strengthening could improve the lateral resistance by about 50% while the post-damaged retrofitting can only restore the initial strength.ududA simplified micro-scale finite element model for fracture in masonry walls was developed. The mortar joints and the brick-mortar interfaces are taken to have zero-thickness. The bricks were modelled as elastic elements while the brick-mortar interfaces were represented using a Mohr-Coulomb failure surface with a tension cut-off and a linear compression cap. One feature of the research was to identify the material parameters for the constitutive model. The material parameters were tuned by minimizing the difference between the experimental and numerical results of a single leaf wall panel. The model was then validated by assigning the parameters to the single-leaf masonry wall as well as to the double-leaf wall to predict its mechanical behaviour. Good agreement with experimental results was found. ududFurthermore, masonry is also widely used in the form of infill panels within RC frames. Therefore, the collar-jointed technique has also been extended and applied to the infilled RC frame. The numerical results showed that the collar-jointed technique could provide some benefits to the composite structure. ud
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机译:砌体是由用砂浆粘结在一起的砌体单元制成的复合材料。在世界各地可以找到大量用砖石建造的历史建筑。建造时几乎没有考虑地震荷载。因此,经常需要对砖石结构进行翻新或加固。这项研究提出了一种新的采用套环连接技术的加固方法。即,该方法是通过建造与现有单叶墙平行的另一座砖石墙,并使用灰浆领口将两者粘合在一起来实现的。此外,领结式砌体墙构造也是现实中流行的构造系统。本文考虑了两种不同类型的领墙加固应用:损坏前和损坏后的墙。结果发现,受损前的加固可将侧向阻力提高约50%,而受损后的加固只能恢复初始强度。 ud ud建立了简化的砌体墙体破裂微观尺度有限元模型。砂浆缝和砖砂浆界面被认为具有零厚度。砖块被建模为弹性元件,而砖瓦间的界面则使用具有拉力截止值和线性压缩帽的Mohr-Coulomb破坏面来表示。该研究的特征之一是确定本构模型的材料参数。通过最小化单个叶片墙板的实验结果和数值结果之间的差异来调整材料参数。然后通过将参数分配给单叶砌体墙和双叶砌体墙以预测其机械性能来验证该模型。发现与实验结果吻合良好。 ud ud此外,砖石还以RC框架内的填充面板形式广泛使用。因此,套环连接技术也已扩展并应用于填充的RC框架。数值结果表明,套环连接技术可以为复合材料结构提供一些好处。 ud
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