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混凝土中弥散损伤的降阶多尺度模拟

Reduced Order Multiscale Simulation of Diffuse Damage in Concrete.

作者信息

Vu Giao, Diewald Fabian, Timothy Jithender J, Gehlen Christoph, Meschke Günther

机构信息

Institute for Structural Mechanics, Ruhr University Bochum, Universitaetsstrasse 150, 44801 Bochum, Germany.

Chair of Materials Science and Testing, Centre for Building Materials, Technical University of Munich, Franz-Langinger-Strasse 10, 81245 Munich, Germany.

出版信息

Materials (Basel). 2021 Jul 8;14(14):3830. doi: 10.3390/ma14143830.

Abstract

Damage in concrete structures initiates as the growth of diffuse microcracks that is followed by damage localisation and eventually leads to structural failure. Weak changes such as diffuse microcracking processes are failure precursors. Identification and characterisation of these failure precursors at an early stage of concrete degradation and application of suitable precautionary measures will considerably reduce the costs of repair and maintenance. To this end, a reduced order multiscale model for simulating microcracking-induced damage in concrete at the mesoscale level is proposed. The model simulates the propagation of microcracks in concrete using a two-scale computational methodology. First, a realistic concrete specimen that explicitly resolves the coarse aggregates in a mortar matrix was generated at the mesoscale. Microcrack growth in the mortar matrix is modelled using a synthesis of continuum micromechanics and fracture mechanics. Model order reduction of the two-scale model is achieved using a clustering technique. Model predictions are calibrated and validated using uniaxial compression tests performed in the laboratory.

摘要

混凝土结构中的损伤始于弥散微裂纹的扩展,随后是损伤局部化,最终导致结构失效。诸如弥散微裂纹扩展过程等微弱变化是失效的先兆。在混凝土劣化的早期阶段识别和表征这些失效先兆,并采取适当的预防措施,将大大降低维修和维护成本。为此,提出了一种降阶多尺度模型,用于在细观尺度上模拟混凝土中微裂纹引发的损伤。该模型采用双尺度计算方法模拟混凝土中微裂纹的扩展。首先,在细观尺度上生成了一个真实的混凝土试件,该试件明确解析了砂浆基体中的粗骨料。砂浆基体中的微裂纹扩展采用连续介质细观力学和断裂力学相结合的方法进行模拟。采用聚类技术实现了双尺度模型的降阶。利用实验室进行的单轴压缩试验对模型预测进行了校准和验证。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3c19/8303905/de0f0a494fd2/materials-14-03830-g0A1.jpg

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