Nonlinear static analysis of masonry structures with mortar joints and cracking units by optimization-based rigid block models

IF 4.3 2区工程技术 Q1 ENGINEERING, CIVIL

Earthquake Engineering & Structural Dynamics Pub Date : 2024-08-05 DOI:10.1002/eqe.4206

Francesco P. A. Portioli, Paulo B. Lourenço

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Abstract

A rigid block model with elasto-plastic softening interfaces is developed for nonlinear static analysis of masonry structures subject to monotonic loading. Cracking, crushing, and shear failures are taken into account at interfaces, following a simple micro-modeling approach. An optimization-based formulation is used for the solution of the equation systems governing the behavior of the rigid block assemblage. A simple incremental solution procedure is implemented to take into account the material softening behavior and the effects of large displacements on equilibrium conditions. The interface models are validated against tension and shear tests on bi-block prisms from the literature. Applications to numerical and experimental out-of-plane loaded masonry walls as well as to circular arches with mortar joints are presented to evaluate the effects of tensile strength and the accuracy of the developed model against responses involving P-Δ effects. Comparisons with experimental tests on shear walls also involving cracking of the units in the failure mechanisms are finally reported to discuss the potentialities and limitations of the proposed modeling approach.

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通过基于优化的刚性砌块模型，对带有砂浆接缝和开裂单元的砌体结构进行非线性静力分析

针对单调荷载下砌体结构的非线性静态分析，开发了一种具有弹塑性软化界面的刚性砌块模型。采用简单的微观建模方法，考虑了界面处的开裂、挤压和剪切破坏。在解决刚性砌块组合行为的方程系统时，采用了基于优化的计算方法。考虑到材料软化行为和大位移对平衡条件的影响，采用了简单的增量求解程序。界面模型根据文献中的双块棱柱拉伸和剪切试验进行了验证。介绍了平面外荷载砌体墙以及带灰浆接缝的圆拱的数值和实验应用，以评估抗拉强度的影响以及所开发模型对涉及 P-Δ 效应的响应的准确性。最后，报告了与剪力墙实验测试的比较，实验测试也涉及到破坏机制中的单元开裂，以讨论所建议的建模方法的潜力和局限性。

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来源期刊

Earthquake Engineering & Structural Dynamics 工程技术-工程：地质

CiteScore

7.20

自引率

13.30%

发文量

180

审稿时长

4.8 months

期刊介绍： Earthquake Engineering and Structural Dynamics provides a forum for the publication of papers on several aspects of engineering related to earthquakes. The problems in this field, and their solutions, are international in character and require knowledge of several traditional disciplines; the Journal will reflect this. Papers that may be relevant but do not emphasize earthquake engineering and related structural dynamics are not suitable for the Journal. Relevant topics include the following: ground motions for analysis and design geotechnical earthquake engineering probabilistic and deterministic methods of dynamic analysis experimental behaviour of structures seismic protective systems system identification risk assessment seismic code requirements methods for earthquake-resistant design and retrofit of structures.

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