Research on invisible structure integrity damages of asphalt pavement(PDF)
长安大学学报(自然科学版)[ISSN:1006-6977/CN:61-1281/TN]
- Issue:
- 2021年4期
- Page:
- 11-20
- Research Field:
- 道路工程
- Publishing date:
Info
- Title:
- Research on invisible structure integrity damages of asphalt pavement
- Author(s):
- FU Jun1; 2; LI Zhongjie1; YANG Rongqi1; JIA Dawei1; DING Qingjun2
- (1. School of Transportation, Wuhan University of Technology, Wuhan 430070, Hubei, China; 2. State KeyLaboratory of Silicate Building Materials, Wuhan University of Technology, Wuhan 430070, Hubei, China)
- Keywords:
- road engineering; asphalt pavement; invisible structure integrity; direct parameter; indirect parameter; macromeso crossscale simulation
- PACS:
- -
- DOI:
- -
- Abstract:
- In order to explore the early performance evolution mechanism of asphalt pavement in service state, by defining the basic concept of invisible structure integrity of asphalt pavement, the invisible failure of asphalt pavement was evaluated from the perspective of the micro interface parameter performance and the chaotic evolution of subcritical cracks. The interface thickness D, elastic modulus E and strength F of the meso interface transition zone between asphalt and aggregate were considered as the direct parameters of invisible structure integrity and normalized to study the meso effect of direct parameter changes on asphalt pavement decay. The indirect parameter J at the mesoscale crack tip was used to determine the critical state of decay acceleration and crack instability growth. In the analysis of practical example, the asphalt mixture in mesoscale was simplified as threephase composite materials composed of coarse aggregate, asphalt mortar and interface. Based on the mechanism of crossscale analysis and the displacement transfer method of submodel, the macromeso finite element model was established. Considering the meso mechanical response of asphalt pavement under 500 cycles of axle load, four meso regions were selected. After initial normalization, the threshold values of single parameter [D]′ and [F]′ were 20%, and the threshold value of [E]′ was 10%. If the threshold value exceeds the single limit value, the interface performance will be affected. The relevant examples realized process of mesocrack initiation and dynamic evolution, and provided a pre factor for indirect parameter Jintegral evaluation of invisible structural integrity. The results show that when the direct parameter change [ΔZ]′ over 15%, the interface will produce invisible failure, even if the coupling effect of direct and indirect parameters is not considered, the single parameter exceeding the limit will directly affect the ΔZ failure, and the ΔZ failure severity is affected by the superposition of various parameters. The fracture toughness JC is negatively correlated with the direct parameter ΔZ. 〖JP2〗When the ΔZ overrun increases from 5.32% to 28.51%, the JC decreases from 1.725 to 0.724 kJ/m2. With the aggravation of invisible structure failure, the interface performance of asphalt mixture decreases, and its fracture toughness decreases accordingly. Based on the double criterions, influence effects of direct and indirect parameters can be preliminarily revealed, which can provide support for the invisible structure integrity failure assessment of asphalt pavement. The study can provide reference for early failure inflection point determination and preventive maintenance of asphalt pavement. 1 tab, 11 figs, 27 refs.
Last Update: 2021-08-12