Towards automated image-based cohesive zone modeling of cracking in irregular masonry

IF 1.7 4区 工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Karim Ehab Moustafa Kamel, Thierry J Massart
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Abstract

The models developed for masonry and historical structures in the literature are usually classified into macromodels considering masonry as an equivalent continuum; and micromodels in which brick, blocks, or stones and mortar joints are represented explicitly. In this second category, many contributions dealt with regular bond masonry for which the geometrical description and the discretization are rather straightforward. For irregular masonry structures however, even though both finite element method (FEM) and discrete element method (DEM) approaches have been developed, obtaining a versatile geometry representation and its discretization remains much less straightforward. This becomes an important issue nowadays with the availability of image acquisition techniques, based on which computational models could be derived. The present contribution proposes an automated methodology to produce a line description of the mortar joints of an irregular masonry blocks/stones and mortar assembly, which can subsequently be used in modeling approaches. The starting point of the development is a generation technique based on inclusions packings which uses distance fields to the nearest neighboring inclusions to describe an assembly of blocks or stones geometrically. It is shown that such an assembly and the corresponding distance fields can be used to extract efficiently and in an automated way a line or lumped description of the corresponding mortar joint based on the concept of a medial axis. This line description can subsequently be used to define computational models. This is illustrated by the automated generation of FEM models that represent mortar joints by interface elements equipped with a cohesive law. Simulations on representative volume elements (RVEs) and on a wall are shown to illustrate the methodology that paves the way towards the image-based modeling of irregular masonry structures through the automated generation of cohesive zone-based models.
基于图像的不规则砌体裂缝内聚区自动建模
文献中针对砌体和历史结构开发的模型通常分为宏观模型和微观模型,前者将砌体视为等效连续体,后者则明确表示砖、砌块或石块和砂浆接缝。在第二类中,许多研究都涉及规则粘结砌体,其几何描述和离散化都相当简单。然而,对于不规则的砌体结构,尽管有限元法(FEM)和离散元法(DEM)都已开发出来,但要获得通用的几何表示及其离散化仍然不那么简单。如今,随着图像采集技术的出现,这已成为一个重要问题。本论文提出了一种自动方法,用于对不规则砌块/石块和砂浆组件的砂浆接缝进行线性描述,随后可用于建模方法。开发的出发点是基于内含物堆积的生成技术,该技术利用与最近相邻内含物的距离场来描述砌块或石块的几何组合。研究表明,这种组合体和相应的距离场可用于根据中轴线的概念,以自动化的方式有效提取相应灰浆接缝的线条或块状描述。这种线条描述随后可用于定义计算模型。具体表现为自动生成有限元模型,该模型通过配备内聚法则的界面元素来表示灰浆接缝。对代表性体积元素(RVE)和墙体的模拟说明了该方法,通过自动生成基于内聚区的模型,为基于图像的不规则砌体结构建模铺平了道路。
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来源期刊
Mathematics and Mechanics of Solids
Mathematics and Mechanics of Solids 工程技术-材料科学:综合
CiteScore
4.80
自引率
19.20%
发文量
159
审稿时长
1 months
期刊介绍: Mathematics and Mechanics of Solids is an international peer-reviewed journal that publishes the highest quality original innovative research in solid mechanics and materials science. The central aim of MMS is to publish original, well-written and self-contained research that elucidates the mechanical behaviour of solids with particular emphasis on mathematical principles. This journal is a member of the Committee on Publication Ethics (COPE).
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