A cumulative damage model for predicting and assessing raveling in asphalt pavement using an energy dissipation approach

IF 2.9 3区 工程技术 Q2 ENGINEERING, CIVIL
Kailing Deng, Duanyi Wang, Cheng Tang, Jianwen Situ, Luobin Chen
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Abstract

Raveling is a common distress of asphalt pavements, defined as the removal of stones from the pavement surface. To predict and assess raveling quantitatively, a cumulative damage model based on an energy dissipation approach has been developed at the meso level. To construct the model, a new test method, the pendulum impact test, was employed to determine the fracture energy of the stone-mastic-stone meso-unit, while digital image analysis and dynamic shear rheometer test were used to acquire the strain rate of specimens and the rheology property of mastic, respectively. Analysis of the model reveals that when the material properties remain constant, the cumulative damage is directly correlated with loading time, loading amplitude, and loading frequency. Specifically, damage increases with superimposed linear and cosine variations over time. A higher stress amplitude results in a more rapidly increasing rate of damage, while a lower load frequency leads to more severe damage within the same loading time. Moreover, an example of the application of the model has been presented, showing that the model can be utilized to estimate failure life due to raveling. The model is able to offer a theoretical foundation for the design and maintenance of anti-raveling asphalt pavements.

利用能量耗散法预测和评估沥青路面碎裂的累积损伤模型
碎石是沥青路面的一种常见损坏,是指路面表面的石块脱落。为了定量预测和评估沥青路面的塌陷情况,我们开发了一种基于能量耗散方法的中观累积损伤模型。为了构建该模型,我们采用了一种新的试验方法--摆锤冲击试验来确定石子-胶结料-石子中观单元的断裂能,同时使用数字图像分析和动态剪切流变仪试验分别获取试样的应变率和胶结料的流变特性。模型分析表明,当材料特性保持不变时,累积损伤与加载时间、加载振幅和加载频率直接相关。具体地说,随着时间的推移,损伤会随着叠加的线性和余弦变化而增加。应力振幅越大,损坏率增加越快,而加载频率越低,在相同加载时间内损坏越严重。此外,还介绍了该模型的一个应用实例,表明该模型可用于估算因坡口造成的破坏寿命。该模型能够为抗碎裂沥青路面的设计和维护提供理论依据。
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来源期刊
CiteScore
5.20
自引率
3.30%
发文量
734
期刊介绍: Frontiers of Structural and Civil Engineering is an international journal that publishes original research papers, review articles and case studies related to civil and structural engineering. Topics include but are not limited to the latest developments in building and bridge structures, geotechnical engineering, hydraulic engineering, coastal engineering, and transport engineering. Case studies that demonstrate the successful applications of cutting-edge research technologies are welcome. The journal also promotes and publishes interdisciplinary research and applications connecting civil engineering and other disciplines, such as bio-, info-, nano- and social sciences and technology. Manuscripts submitted for publication will be subject to a stringent peer review.
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