Evaluating asphalt concrete air void variation via GPR antenna array data

Kyle Hoegh , Lev Khazanovich , Shongtao Dai , Thomas Yu
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引用次数: 44

Abstract

Air void content is one of the most important characteristics of in-place asphalt concrete, substantially affecting early deterioration and long term performance. Destructive measures at limited locations, such as coring, are typically conducted as part of the air-void content evaluation after the pavement has been fully constructed. In this paper, use of an air coupled step-frequency array system for nondestructive assessment of air-void variability is explored. The dielectric properties of the asphalt were determined from the asphalt surface reflection amplitude of all 21 adjacent transmitting and receiving pairs of the array and related to air void content through plotting of dielectric changes with core measured air void content. This approach is an extension of the procedure developed for a single bistatic antenna pair determining properties within top millimeters of the asphalt surface. While cores provide information concerning bulk properties across the depth, the proposed method with an array system provides an opportunity for increased lateral coverage. The case study demonstrated good repeatability and correspondence with core measured air void content. The array-based method improves the coverage and productivity of the measurements, making it an attractive alternative to current state-of-the-practice procedures.

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利用探地雷达天线阵列数据评价沥青混凝土空隙变化
孔隙率是现浇沥青混凝土最重要的特性之一,严重影响其早期劣化和长期性能。在有限的位置采取破坏性措施,如取心,通常是在路面完全施工后作为空隙含量评估的一部分进行的。本文探讨了利用空气耦合阶跃频率阵列系统对空气空隙变异性进行无损检测的方法。通过阵列所有相邻21对发射和接收对的沥青表面反射振幅来确定沥青的介电性能,并通过绘制介电变化与岩心测量的空隙含量的关系来确定沥青的介电性能。该方法是对用于测定沥青表面顶部毫米内的单个双基地天线对的程序的扩展。虽然岩心提供了有关整个深度的整体属性信息,但采用阵列系统的方法提供了增加横向覆盖的机会。实例研究表明,该方法具有良好的重复性,并与岩心测量的空隙率相对应。基于阵列的方法提高了测量的覆盖范围和生产率,使其成为当前最先进的实践程序的有吸引力的替代方案。
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Contents Editorial Board Editorial Board Contents Comparison of surface-based and image-based quality metrics for the analysis of dimensional computed tomography data
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