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Assessment of Non-Destructive Testing Technologies for Quality Control/Quality Assurance of Asphalt Mixtures.

机译：评估沥青混合料质量控制/质量保证的无损检测技术。

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Asphalt pavements suffer various failures due to insufficient quality within their design lives. The American Association of State Highway and Transportation Officials (AASHTO) Mechanistic-Empirical Pavement Design Guide (MEPDG) has been proposed to improve pavement quality through quantitative performance prediction. Evaluation of the actual performance (quality) of pavements requires in situ nondestructive testing (NDT) techniques that can accurately measure the most critical, objective, and sensitive properties of pavement systems. The purpose of this study is to assess existing as well as promising new NDT technologies for quality control/quality assurance (QC/QA) of asphalt mixtures. Specifically, this study examined field measurements of density via the PaveTracker electromagnetic gage, shear-wave velocity via surface-wave testing methods, and dynamic stiffness via the Humboldt GeoGauge for five representative paving projects covering a range of mixes and traffic loads. The in situ tests were compared against laboratory measurements of core density and dynamic modulus. The in situ PaveTracker density had a low correlation with laboratory density and was not sensitive to variations in temperature or asphalt mix type. The in situ shear-wave velocity measured by surface-wave methods was most sensitive to variations in temperature and asphalt mix type. The in situ density and in- situ shear-wave velocity were combined to calculate an in situ dynamic modulus, which is a performance-based quality measurement. The in situ Geo-Gauge stiffness measured on hot asphalt mixtures several hours after paving had a high correlation with the in situ dynamic modulus and the laboratory density, whereas the stiffness measurement of asphalt mixtures cooled with dry ice or at ambient temperature one or more days after paving had a very low correlation with the other measurements. To transform the in situ moduli from surface-wave testing into quantitative quality measurements, a QC/QA procedure was developed to first correct the in situ moduli measured at different field temperatures to the moduli at a common reference temperature based on master curves from laboratory dynamic modulus tests. The corrected in situ moduli can then be compared against the design moduli for an assessment of the actual pavement performance. A preliminary study of micro-electrome chanical systems- (MEMS)-based sensors for QC/QA and health monitoring of asphalt pavements was also performed.

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作者
Lin, S.; Ashlock, J. C.; Kim, H.; Nash, J.; Lee, H. D.; Williams, R. C.;
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年度 2015
页码 1-184
总页数 184
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Asphalt mixtures; Surface-Wave Testing; Quality asssurance; Dynamic stiffness matrix; Performance; Pavement; Nondestructive testing (NDT); Shear-wave velocity; Quality control; Humboldt GeoGauge; Micro-Electrome Chemical Systems(MEMS; Quality control/quality assurance(QC/QA); Mechanistic-Empirical Pavement Design Guide (MEPDG);

机译：沥青混合料;表面波测试;质量保证;动态刚度矩阵;性能;路面;无损检测（NDT）;剪切波速度;质量控制; Humboldt GeoGauge;微电子化学系统（mEms;质量控制/质量保证（ QC / Qa）;机械 - 经验路面设计指南（mEpDG）;

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8. Assessment of Non-Destructive Testing Technologies for Quality Control/Quality Assurance of Asphalt Mixtures. Tech Transfer Summary. [R] . Lin, S., Ashlock, J. C., Kim, H., 2015

机译：评估沥青混合料质量控制/质量保证的无损检测技术。技术转让摘要。

Assessment of Non-Destructive Testing Technologies for Quality Control/Quality Assurance of Asphalt Mixtures.

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