Morphology characteristics of filler particles and their effects on the low–temperature cracking behavior of asphalt mastics

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The article concerned on particle morphology of mineral filler and its impact on mastic cracking property at low temperatures. Limestone and granite fillers with four-sized groups were prepared and further investigated using a simplex-centroid experimental design. The particle morphologies of each filler were captured using a digital image processing. By applying bending beam rheometer tests, mastic cracking behavior was investigated at low temperatures. Results show that compared with granite filler, each limestone filler shows less regular contour shape (except l1), less abundant angularity (except l1, l2, l5 and l17) and surface texture when performed by a simplex-centroid experimental design. The established fractional derivative Burgers model considering creep damage can effectively describe mastic cracking behavior at low temperatures. Composite fractal dimension is the decisively relevant factor with mastic relaxation behavior. Moreover, mastic creep damage is obviously affected by composite morphology characteristics and filler lithology with increasing loading time. All the results are instructive to inform researches of the selection of mineral filler with appropriate particle morphology that will produce asphalt materials with desired performance.