题名: |
FRACTURE MORPHOLOGY AND FRACTURE TOUGHNESS MEASUREMENT OF POLYMER-MODIFIED ASPHALT CONCRETE. |
作者: |
Bhurke-AS; Shin-EE; Drzal-LT |
关键词: |
ASPHALT-CONCRETE; POLYMER-ASPHALT; FRACTURE-MORPHOLOGY; FRACTURE-TOUGHNESS; POLYMERS-; CONCENTRATION-CHEMISTRY; QUALITATIVE-ANALYSIS; QUANTITATIVE-ANALYSIS |
摘要: |
Pavement distress occurs through a variety of mechanisms, but it is always controlled by the adhesive and cohesive performance of the asphalt binder. Although the causes of pavement failures are known, the precise mechanisms by which they occur remain to be understood. Observation of the fracture morphology of asphalt concrete can provide some information in this respect. The fracture morphology of asphalt concrete is dependent on the morphology of the binder. A network structure was observed in thin asphalt binder films and the fracture morphology and engineering properties of asphalt concrete were found to be dependent on the network morphology of the asphalt binder. Addition of polymers to asphalt binders causes changes in the nature of the network structure, and its effect can be qualitatively determined by characterizing the fracture morphology. Styrene butadiene styrene (SBS), styrene ethylene butylene styrene (SEBS), styrene butadiene rubber (SBR) latex and an epoxy-terminated reacting polyolefin (Elvaloy AM) were used in this study. A quantitative method to determine the effect of polymer modification on the fracture properties of asphalt concrete is the J-contour integral fracture toughness measurement. An experimental protocol to measure the critical J-integral fracture toughness (J sub IC) was developed and the low temperature (-10 deg C) J sub IC values were determined for SEBS and Elvaloy AM-modified asphalt concrete at three different concentrations. |
总页数: |
Transportation Research Record. 1997. (1590) pp23-33 (13 Fig., 3 Tab., 8 Ref.) |
报告类型: |
科技报告 |