Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Recommendations on Intelligent Compaction Parameters for Asphalt Resurfacing Quality Evaluation
AbstractIntelligent compaction (IC) technology provides an innovative way for continuously and instantaneously evaluating asphalt compaction quality. However, there is a lack of well-accepted standard as to what IC parameters should be used and how they should be interpreted during the compaction. In this study, by analyzing IC parameters in six asphalt resurfacing projects in Tennessee, the feasibility of adopting IC parameters in IC specifications for the asphalt compaction quality was evaluated. Comprehensive laboratory tests were performed on the field cores, including bulk specific gravity, permeability, and indirect tensile (IDT) strength. Results indicated that there is linear relationship among the laboratory test results. Although there were no significant relationships between the final compaction meter value (CMV) and the core results, the difference in 1/CMV between two passes in one project showed significant correlations with the laboratory results. Other IC parameters, especially the starting surface temperature of the breakdown roller, also had a strong correlation with the core density. Based on the results from this study, it is recommended that three IC parameters—the difference in 1/CMV, the starting surface temperature of compaction (>110°C), and the total number of passes (>2 passes)—be adopted for evaluating the compaction quality of the resurfacing asphalt.
Recommendations on Intelligent Compaction Parameters for Asphalt Resurfacing Quality Evaluation
AbstractIntelligent compaction (IC) technology provides an innovative way for continuously and instantaneously evaluating asphalt compaction quality. However, there is a lack of well-accepted standard as to what IC parameters should be used and how they should be interpreted during the compaction. In this study, by analyzing IC parameters in six asphalt resurfacing projects in Tennessee, the feasibility of adopting IC parameters in IC specifications for the asphalt compaction quality was evaluated. Comprehensive laboratory tests were performed on the field cores, including bulk specific gravity, permeability, and indirect tensile (IDT) strength. Results indicated that there is linear relationship among the laboratory test results. Although there were no significant relationships between the final compaction meter value (CMV) and the core results, the difference in 1/CMV between two passes in one project showed significant correlations with the laboratory results. Other IC parameters, especially the starting surface temperature of the breakdown roller, also had a strong correlation with the core density. Based on the results from this study, it is recommended that three IC parameters—the difference in 1/CMV, the starting surface temperature of compaction (>110°C), and the total number of passes (>2 passes)—be adopted for evaluating the compaction quality of the resurfacing asphalt.
Recommendations on Intelligent Compaction Parameters for Asphalt Resurfacing Quality Evaluation
Huang, Baoshan (Autor:in) / Hu, Wei / Jia, Xiaoyang / Shu, Xiang
2017
Aufsatz (Zeitschrift)
Englisch
Field investigation of intelligent compaction for hot mix asphalt resurfacing
| Springer Verlag | 2017
| Engineering Index Backfile | 1931
Evaluation of intelligent compaction for asphalt materials
| Online Contents | 2013