Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Preliminary investigation of the relationship between HMA compressive and tensile dynamic modulus
Highlights In the research, CDM represented Compressive Dynamic Modulus. TDM⊥ and TDM|| used for Dynamic Modulus perpendicular and parallel to compaction. The research found significant difference existed between the CDM and TDM⊥. The research found that CDM-TDM⊥ relationship follows the power law distribution. A relatively smaller difference was observed between CDM and TDM||.
Abstract For resource optimization and time constraints, it is often desired to estimate and predict certain material properties of hot-mix asphalt (HMA) from a known set of existing data, generated either through laboratory or field testing; typically for the purposes of design and/or analysis. This laboratory study was undertaken to explore and investigate the relationships between the Compressive Dynamic Modulus (CDM) and Tensile Dynamic Modulus (TDM) properties of HMA based on mixes typically used in the State of New York (USA). The second objective of the study was to establish and formulate generalized statistical TDM-CDM models that could closely predict the HMA tensile dynamic modulus (TDM) from known compressive dynamic modulus (CDM) data from laboratory experimentation. Twelve different mixes of HMA were tested to determine the CDM and TDM parallel to the direction of compaction and TDM perpendicular to the direction of compaction. Two replicates were tested for each mix at different temperatures (namely 10°C, 20°C, 30°C, and 35°C) and loading frequencies (namely 25Hz, 10Hz, 5Hz and 1Hz). The corresponding laboratory test results were then used to develop statistical models that related CDM and TDM at the individual test temperatures and all the test temperatures combined. Overall, the study found that the CDM versus TDM correlation at each temperature level improved with increasing temperature from fair to good, with a correlation coefficient (R2) ranging from 50% to 89%; whereas the correlation at all the test temperatures combined was found to be relatively strong with an R2 value above 90%. For the mixes evaluated and the test conditions considered, the formulated models were successfully validated through statistical comparisons of the laboratory measured and the predicted TDM values.
Preliminary investigation of the relationship between HMA compressive and tensile dynamic modulus
Highlights In the research, CDM represented Compressive Dynamic Modulus. TDM⊥ and TDM|| used for Dynamic Modulus perpendicular and parallel to compaction. The research found significant difference existed between the CDM and TDM⊥. The research found that CDM-TDM⊥ relationship follows the power law distribution. A relatively smaller difference was observed between CDM and TDM||.
Abstract For resource optimization and time constraints, it is often desired to estimate and predict certain material properties of hot-mix asphalt (HMA) from a known set of existing data, generated either through laboratory or field testing; typically for the purposes of design and/or analysis. This laboratory study was undertaken to explore and investigate the relationships between the Compressive Dynamic Modulus (CDM) and Tensile Dynamic Modulus (TDM) properties of HMA based on mixes typically used in the State of New York (USA). The second objective of the study was to establish and formulate generalized statistical TDM-CDM models that could closely predict the HMA tensile dynamic modulus (TDM) from known compressive dynamic modulus (CDM) data from laboratory experimentation. Twelve different mixes of HMA were tested to determine the CDM and TDM parallel to the direction of compaction and TDM perpendicular to the direction of compaction. Two replicates were tested for each mix at different temperatures (namely 10°C, 20°C, 30°C, and 35°C) and loading frequencies (namely 25Hz, 10Hz, 5Hz and 1Hz). The corresponding laboratory test results were then used to develop statistical models that related CDM and TDM at the individual test temperatures and all the test temperatures combined. Overall, the study found that the CDM versus TDM correlation at each temperature level improved with increasing temperature from fair to good, with a correlation coefficient (R2) ranging from 50% to 89%; whereas the correlation at all the test temperatures combined was found to be relatively strong with an R2 value above 90%. For the mixes evaluated and the test conditions considered, the formulated models were successfully validated through statistical comparisons of the laboratory measured and the predicted TDM values.
Preliminary investigation of the relationship between HMA compressive and tensile dynamic modulus
Nyamuhokya, Tito P. (Autor:in) / Romanoschi, Stefan (Autor:in) / Hu, Xiaodi (Autor:in) / Abdullah, Ali (Autor:in) / Walubita, Lubinda F. (Autor:in)
Construction and Building Materials ; 128 ; 461-470
28.09.2016
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Preliminary investigation of the relationship between HMA compressive and tensile dynamic modulus
| British Library Online Contents | 2016
Preliminary investigation of the relationship between HMA compressive and tensile dynamic modulus
| Online Contents | 2016
Preliminary investigation of the relationship between HMA compressive and tensile dynamic modulus
| British Library Online Contents | 2016