Study on Dynamic Response Characteristics of Different Asphalt Pavement Structures Based on ALF Test

Ni Guangcong, A. N. Tiraturyan, E. V. Uglova, A. V. Vorobev
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Abstract

Introduction . In recent years, one of the main trends in the field of testing road structures has become field study of their large-scale models at the accelerated load facility (ALF). It can significantly reduce the cost of selecting the most economical and durable pavement designs. However, the results obtained on the ALF are often relative, since they practically do not correlate with the results of laboratory and field tests on real objects. This study is aimed at a comprehensive investigation of the response of a road structure to a dynamic load, the establishment of patterns of fatigue failure of asphalt concrete layers during the accelerated testing and full-scale tests on real objects. Materials and Methods . During testing, an accelerated load facility was used, located on the territory of the ShanDong Transport University. When conducting field tests, a dynamic loading unit with a falling weight FWD Primax 1500 was used, which recorded the deflection bowl on the surface of the structure under study. To record the dynamic response in the arrangement of the road structure, a complex of strain gauge sensors was used, which made it possible to register both compressive stresses and tensile strains in different layers. The results obtained under natural conditions were compared to the results obtained on the mathematical FEM model. Results. The research results have shown that the thickness of the lower coating layer is the main factor affecting the amount of vertical deformation of the pavement, which must be taken into account at the design stage of the pavement structure. Thus, with a thickness of the upper layer of the base of 10 cm, the vertical deformation was 100 µm, and with a thickness of 20 cm – 55 µm, provided that the overall strength of the structure was ensured. The number of load application cycles on the ALF had a minimal effect on the selected asphalt concrete samples during split tensile tests. Discussion and Conclusion . The adequacy of the results obtained in the course of accelerated testing of road structures was shown through a comprehensive comparison of numerical simulation data and full-scale tests, and the adequacy of the applied calculation methods was validated. The results of the study can be further applied in the road industry to develop and improve the regulatory framework for the design of non-rigid pavement under conditions of increased loads and heavy traffic.
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基于ALF试验的不同沥青路面结构动力响应特性研究
介绍。近年来,道路结构试验领域的主要趋势之一是在加速加载装置(ALF)上进行大型模型的现场研究。它可以显著降低选择最经济和耐用的路面设计的成本。然而,在ALF上获得的结果往往是相对的,因为它们实际上与实验室和实地对真实物体进行测试的结果不相关。本研究旨在全面研究道路结构对动荷载的响应,建立沥青混凝土层在加速试验和实物全尺寸试验中的疲劳破坏模式。材料与方法。在测试期间,使用了一个加速加载设施,位于山东交通大学的领土上。在进行现场试验时,采用了FWD Primax 1500型落重动加载装置,记录了被研究结构表面的挠度碗形。为了记录道路结构布置中的动态响应,使用了一组应变计传感器,这使得记录不同层的压应力和拉应变成为可能。将自然条件下得到的结果与数学有限元模型上得到的结果进行了比较。结果。研究结果表明,下涂覆层厚度是影响路面竖向变形量的主要因素,在路面结构设计阶段必须加以考虑。因此,在保证结构整体强度的前提下,基础上层厚度为10 cm时,竖向变形量为100 μ m,厚度为20 cm - 55 μ m。在劈裂拉伸试验中,ALF上的荷载应用循环次数对所选沥青混凝土样品的影响最小。讨论与结论。通过数值模拟数据与实车试验的综合对比,证明了道路结构加速试验过程中所得结果的充分性,验证了所采用计算方法的充分性。研究结果可以进一步应用于道路行业,以制定和完善在载荷增加和交通繁忙的情况下设计非刚性路面的监管框架。
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