Assessment of Flexible Pavement Behavior Under Dynamic Earthquake Loading

M. Hussein
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Abstract

Through cushioning the pressures caused from high traffic at prior asphalt, a reinforcing interlayer delays the formation of cracks at bitumen overlay. Experimental effort comprises of laboratory testing that better known behavior of sand as a subgrade and its impact on flexible pavement and base-course layer during earthquakes. The sand layer was 600 mm thick; the base was 200 mm thick, and the asphalt layer was constructed as a panel with dimensions of 300*300*50 mm, representing surface. These layers are put to the test with varied earthquake loading frequencies of 0.5, 1, and 1.5 Hz. Experiments were divided into two sections: one without geogrid and the other with geo-grid at center of -base and among base and sand. It was discovered that the frequency of ground movement causes cracks in the asphalt layer, which increases with shaking frequency and reduces with geogrid installation.
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地震动力荷载作用下柔性路面性能评价
通过缓冲来自先前沥青路面的高流量压力,加固夹层延缓了沥青路面裂缝的形成。实验工作包括实验室测试,以更好地了解砂作为路基的行为及其在地震期间对柔性路面和基层层的影响。砂层厚度为600mm;基层厚度为200mm,沥青层构造为面板,尺寸为300*300* 50mm,代表表面。这些层在0.5、1和1.5 Hz的不同地震荷载频率下进行测试。试验分为两部分:一段不加土工格栅,另一段在地基中心和地基与砂土之间加土工格栅。研究发现,地面运动频率导致沥青层出现裂缝,裂缝随震动频率增加而增大,随土工格栅安装而减小。
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