An efficient approach for mesoscale fracture modeling of fully-graded hydraulic concrete

IF 3.7 Q1 WATER RESOURCES

Water science and engineering Pub Date : 2022-12-01 DOI:10.1016/j.wse.2022.09.002

Lei Xu, Lei Jiang, Ye-fei Huang, Qing-wen Ren

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引用次数: 1

Abstract

Large coarse aggregates used in fully-graded hydraulic concrete necessitate large specimens for numerical modeling. This leads to a high computational cost for mesoscale modeling and thus slows the development of multiscale modeling of hydraulic mass concrete structures. To overcome this obstacle, an efficient approach for mesoscale fracture modeling of fully-graded hydraulic concrete was developed based on the concept of the governing mesostructure. The mesostructure was characterized by a critical aggregate size. Coarse aggregates smaller than the critical size were homogenized into mortar matrices. Key issues in mesostructure generation of fully-graded hydraulic concrete are discussed, as is the development of mesoscale finite element modeling methodology. The basic concept and implementation procedures of the proposed approach are also described in detail. The numerical results indicated that the proposed approach not only significantly improves the computational efficiency of mesoscale modeling but also captures the dominant fracturing mechanism at the mesoscale and reproduces reasonable fracture properties at the macroscale. Therefore, the proposed approach can serve as a basis for multiscale fracture modeling of hydraulic mass concrete structures.

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全级配水工混凝土细观断裂建模的一种有效方法

全级配水工混凝土中使用的大粗集料需要大试件进行数值模拟。这导致了中尺度建模的高计算成本，从而减缓了水工大体积混凝土结构多尺度建模的发展。为了克服这一障碍，基于控制细观结构的概念，提出了一种高效的全级配水工混凝土细观断裂建模方法。介观结构以临界骨料粒度为特征。小于临界粒径的粗集料均化为砂浆基质。讨论了全级配水工混凝土细观结构生成的关键问题，以及细观尺度有限元建模方法的发展。并详细介绍了该方法的基本概念和实现过程。数值结果表明，该方法不仅显著提高了中尺度模拟的计算效率，而且在中尺度上捕捉了裂缝的主导机理，在宏观尺度上再现了合理的裂缝性质。因此，该方法可作为水工大体积混凝土结构多尺度断裂建模的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Water science and engineering WATER RESOURCES-

CiteScore

6.60

自引率

5.00%

发文量

573

审稿时长

50 weeks

期刊介绍： Water Science and Engineering journal is an international, peer-reviewed research publication covering new concepts, theories, methods, and techniques related to water issues. The journal aims to publish research that helps advance the theoretical and practical understanding of water resources, aquatic environment, aquatic ecology, and water engineering, with emphases placed on the innovation and applicability of science and technology in large-scale hydropower project construction, large river and lake regulation, inter-basin water transfer, hydroelectric energy development, ecological restoration, the development of new materials, and sustainable utilization of water resources.