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Top-Down Crack Modeling of Asphalt Concrete based on a Viscoelastic Fracture Mechanics

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  • URLhttps://db.koreascholar.com/Article/Detail/322034
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한국도로학회 (Korean Society of Road Engineers)
초록

An energy based crack growth model is developed in this study to simulate the propagation of top-down cracking in asphalt pavements. A viscoelastic fracture mechanics approach, generalized J integral, is employed to model the crack growth of asphalt concrete. Laboratory fatigue crack propagation tests for three different asphalt mixtures are performed at various load levels, frequencies and temperatures. Disk-shaped specimens with a proper loading fixture and crack growth monitoring system are selected for the tests. It is observed from the tests that the crack propagation model based on the generalized J integral is independent of load levels and frequencies, while the traditional Paris’ law model based on stress intensity factor is dependent of loading frequencies. However, both models are unable to take care of the temperature dependence of the mixtures. The fatigue crack propagation model proposed in this study has a good agreement between experimental and predicted crack growth lives, which implies that the energy based J integral could be a better parameter to describe fatigue crack propagation of viscoelastic materials such as asphalt mixtures.

저자
  • Kuai Hai Dong(Department of Civil & Environmental Engineering, Sejong University, Graduate Research Assistant)
  • LeeHyunJong(Department of Civil & Environmental Engineering, Sejong University, Associate Professor)
  • ZiGoangSeup(Department of Civil, Environmental & Architectural Engineering Korea University, Associate Professor)
  • MunSungHo(Expressway & Transportation Research Institute, Senior Researcher)