MODELLING OF THE OUT-OF-PLANE BEHAVIOUR OF UNREINFORCED MASONRY PANELS USING THE DISCRETE MACRO-ELEMENT METHOD (DMEM)

Valeria Cusmano, B. Pantò, I. Caliò, P. Lourenço
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Abstract

Existing unreinforced masonry (URM) buildings, including historical and monumental structures, represent an important architectural and cultural heritage for several countries worldwide. The response of URM, subjected to earthquake excitations, is strongly governed by the out-of-plane (OOP) response of masonry walls, which can lead to local failure mechanisms, even at low levels of seismic loading. The OOP failure conditions are mainly controlled by the geometry of the structure and the masonry quality. Different strategies are used for modelling the OOP response of URM structures including limit analysis and nonlinear FEM. A further recently proposed strategy is based on the discrete macro-element method (DMEM) which allows the simulation of the in-plane and the OOP response of masonry walls with a reduced computational cost compared to the other numerical strategies. In this paper, the DMEM is applied to simulate a masonry wall rocking experimental campaign for which other numerical strategies have already been applied. The dissipation effects, related to the rocking motion and the repetitive impacts, are taken into account according to an equivalent viscous damping approach. Furthermore, the role of masonry deformability is investigated by comparing the results obtained by the DMEM model, for different value of masonry elastic modulus, with those obtained by typical rigid-block based models. The results clearly demonstrate that the DMEM can be efficiently adopted to accurately predict the dynamic response of monumental structures.
用离散宏元法(dmem)模拟无配筋砌体面板的面外性能
现有的无加固砌体建筑,包括历史和纪念性建筑,是世界上一些国家重要的建筑和文化遗产。URM在地震作用下的响应受砌体墙面外响应的强烈控制,即使在低地震荷载水平下也可能导致局部破坏机制。OOP破坏条件主要受结构几何形状和砌体质量控制。针对URM结构的面向对象响应建模,采用了极限分析和非线性有限元方法。最近提出的另一种策略是基于离散宏元法(DMEM),它可以模拟砌体墙的面内响应和面向对象响应,与其他数值策略相比,计算成本更低。本文将DMEM应用于砖石墙体摇摆试验的模拟,而其他数值策略已被应用。根据等效粘性阻尼方法考虑了与摇摆运动和重复冲击有关的耗散效应。此外,通过将DMEM模型与典型刚体模型在不同砌体弹性模量下的结果进行比较,探讨了砌体变形能力的作用。结果表明,采用DMEM可以有效准确地预测纪念性结构的动力响应。
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