Flexible pavement longitudinal joint quality evaluation using non-destructive testing

Hamad Bin Muslim , Syed Waqar Haider , Lev Khazanovich
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引用次数: 0

Abstract

Longitudinal joint construction quality is critical to the life of flexible pavements. Maintaining deteriorated longitudinal joints has become a challenge for many highway agencies. Improving the joint's quality through better compaction during construction can help achieve flexible pavements with longer service lives and less maintenance. Current quality control (QC) and quality assurance (QA) plans provide limited coverage. Consequently, the risk of missing areas with poor joint compaction is significant. A density profiling system (DPS) is a non-destructive alternative to conventional destructive evaluation methods. It can provide quick and continuous real-time coverage of the compaction during construction in dielectrics. The paper presents several case studies comparing various types of longitudinal joints and demonstrating the use of DPS to evaluate the joint's compaction quality. The paper shows that dielectric measurements can provide valuable insight into the ability of various construction techniques to achieve adequate levels of compaction at the longitudinal joint. The paper proposes a dielectric-based longitudinal joint quality index (LJQI) to evaluate the relative compaction of the joint during construction. It also shows that adopting DPS for assessing the compaction of longitudinal joints can minimize the risk of agencies accepting poorly constructed joints, identify locations of poor quality during construction, and achieve better-performing flexible pavements.

利用无损检测评估柔性路面纵向接缝质量
纵向接缝的施工质量对柔性路面的使用寿命至关重要。维护老化的纵向接缝已成为许多公路机构面临的挑战。通过在施工过程中更好地压实来提高接缝质量,有助于实现使用寿命更长、维护更少的柔性路面。目前的质量控制(QC)和质量保证(QA)计划覆盖范围有限。因此,在接缝压实不佳的情况下,遗漏区域的风险很大。密度曲线测试系统 (DPS) 是传统破坏性评估方法的非破坏性替代方法。它可以在电介质施工过程中快速、连续地实时覆盖压实情况。本文介绍了几个案例研究,比较了各种类型的纵向接缝,并演示了如何使用 DPS 评估接缝的压实质量。论文表明,介电测量可为了解各种施工技术在纵向接缝处达到适当压实水平的能力提供有价值的见解。论文提出了一种基于介电测量的纵向接缝质量指标(LJQI),用于评估施工过程中接缝的相对压实度。它还表明,采用 DPS 评估纵向接缝的压实度可以最大限度地降低机构接受施工质量差的接缝的风险,在施工过程中识别质量差的位置,并实现性能更好的柔性路面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
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