水泥和沥青混凝土断裂的中尺度模拟

H. Al-Jelawy, A. Al-Rumaithi, Aqeel T. Fadhil, A. Naji
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引用次数: 0

摘要

在本文中,中尺度模型执行模拟和了解两种混凝土复合材料的断裂行为:水泥和沥青混凝土使用盘形紧致拉伸(DCT)试验。中尺度模型被用作替代宏观尺度模型来获得复合材料和非均质材料如水泥和沥青混凝土的更好的真实行为。在中尺度模式中,骨料和基质被表示为不同的材料,每种材料都有其独特的性质。盘形紧致拉伸试验用于测定材料的抗拉强度和断裂能。该测试可以作为其他测试(如三点弯曲测试)的更好替代,因为除了其准确的结果外,它对现场和实验室样品都更方便。将水泥和沥青混凝土中尺度模型的数值结果与试验数据进行比较,结果表明,这些模型可以很好地预测复合材料的荷载-裂缝开口位移(CMOD)曲线。此外,中尺度模型强调了裂缝方向的可变性,这取决于骨料的随机分布。
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Mesoscale modeling of fracture in cement and asphalt concrete
In this paper, mesoscale modeling is performed to simulate and understand fracture behavior of two concrete composites: cement and asphalt concrete using disk-shaped compact tension (DCT) tests. Mesoscale models are used as alternative to macroscale models to obtain better realistic behavior of composite and heterogeneous materials such as cement and asphalt concrete. In mesoscale models, aggregate and matrix are represented as distinct materials and each material has its characteristic properties. Disk-shaped compact tension test is used to obtain tensile strength and fracture energy of materials. This test can be used as a better alternative to other tests such as three points bending tests because it is more convenient for both field and laboratory specimens in addition to its accurate results. Comparing the numerical results of the mesoscale models of cement and asphalt concrete specimens with experimental data shows that these models can predict the behavior of these composite materials very well as seen in the curves of load-crack mouth opening displacement (CMOD). Also, the mesoscale modeling highlights the variability of crack direction where it is dependent on the random distribution of aggregate.
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来源期刊
Scientific Review Engineering and Environmental Sciences
Scientific Review Engineering and Environmental Sciences Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
1.50
自引率
0.00%
发文量
24
审稿时长
26 weeks
期刊介绍: Scientific Review Engineering and Environmental Sciences [Przegląd Naukowy Inżynieria i Kształtowanie Środowiska] covers broad area of knowledge and practice on fields such as: sustainable development, landscaping of non-urbanized lands, environmental engineering, construction projects engineering land management, protection and land reclamation, environmental impact of investments, ecology, hydrology and water management, ground-water monitoring and restoration, geotechnical engineering, meteorology and connecting subjects. Authors are welcome to submit theoretical and practice-oriented papers containing detailed case studies within above mentioned disciplines. However, theoretical papers should contain part with practical application of the theory presented. Papers (in Polish or English languages) are accepted for publication after obtaining positive opinions of two reviewers. Papers published elsewhere are not accepted.
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