Preparation and performance evaluation of non-sticky wheel emulsified asphalt.
Jia Wang, Changyu Pu, Huabao Ma, Chao Sun
Abstract
Open AccessTo address the issue of traditional emulsified asphalt easily adhering to wheels during construction, thereby causing interlayer bonding failure, a novel non-stick wheel emulsified asphalt was developed using 30# base asphalt as the raw material. The formulation incorporated sulfonated asphalt powder, Honeywell 7610 modifier, and other additives. The optimal formula was determined as follows: 30# asphalt (50-55%), sulfonated asphalt powder (5%), Honeywell 7610 modifier (1%), emulsifier (0.8-1.0%), stabilizer (0.3-0.6%), and defoamer (0.5-0.8%). Based on the viscosity-temperature curve, the preparation process parameters were optimized: emulsification temperature of 70-80 °C and asphalt preheating temperature of 170-180 °C.Performance tests revealed that the evaporation residue of this asphalt exhibited a softening point of 72 °C. Its storage stability (5d/1.8%) and viscosity (Saybolt viscosity: 12.5 s) outperformed conventional emulsified asphalt and SBR-modified asphalt. The interlayer pull-off strength (25 °C/0.87 MPa; 40 °C/0.66 MPa) and shear strength (25 °C/2.87 MPa; 40 °C/2.33 MPa) surpassed those of comparative materials, reaching peak values at a spreading rate of 0.4 kg/m². The material demonstrated minimal strength reduction at high temperatures and low temperature sensitivity. Tire adhesion tests showed an adhesion rate of only 1.32% at 60 °C, significantly lower than conventional emulsified asphalt (33.76%) and SBR-modified asphalt (17.12%). The study concluded that the material achieves superior high-temperature anti-adhesion performance and stable interlayer bonding strength by enhancing softening point and viscosity. A recommended spreading rate of 0.3-0.5 kg/m² effectively extends pavement service life, reduces maintenance costs, and holds significant engineering application value.