![]() ![]() Rut depth, thermal crack, reflective crack, longitudinal crack, including mechanism and significant factors General consideration of pavement drainage, drainage materials Resilient modulus, dynamic modulus, fatigue evaluation, permanent deformation parameters Program study: KENSLABS, including theoretical background and practical study, comparison between simulated and calculated resultsĮquivalent single-wheel load, equivalent axle load factor, traffic distribution Stress and stain solutions for concrete pavement materials, design of dowels and joints and summarized problems Program study: KENLAYER, including theoretical background and practical study, comparison between simulated and calculated results Layered system, stress and stain solutions for viscoelastic materials Pavement history, pavement types, differences among highway and airport pavements Themechanism of field pavement distresses and the relevant significant variableswill be discussed, and the very widely technologies utilized in pavementmaintenance will also be elaborated. ![]() Additionally, the course will teach students howto use the pavement design software (i.e., MEPDG) for the selection of pavementstructure and materials for the preparation of field construction. The mechanical propertiesof the most used pavement materials including asphalt, aggregate, cement andsoil will also be introduced. The traffic load and climatic conditions whichaffected pavement design process will be discussed. This course introduces basicprinciples and methods used in pavement design procedure.
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