2018
DOI: 10.3390/app9010060
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Further Investigation on Damage Model of Eco-Friendly Basalt Fiber Modified Asphalt Mixture under Freeze-Thaw Cycles

Abstract: The main distresses of asphalt pavements in seasonally frozen regions are due to the effects of water action, freeze-thaw cycles, and so on. Basalt fiber, as an eco-friendly mineral fiber with high mechanical performance, has been adopted to reinforce asphalt mixture in order to improve its mechanical properties. This study investigated the freeze-thaw damage characteristics of asphalt mixtures reinforced with eco-friendly basalt fiber by volume and mechanical properties—air voids, splitting tensile strength, … Show more

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Cited by 50 publications
(37 citation statements)
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“…For the F-T splitting test, specimens were kept in water at 97.3 to 98.7 kPa (730-740 mmHg) for 15 min, and then immersed into water at atmospheric pressure for 30 min. Subsequently, specimens were frozen at −18 • C in air for 16 h, and then thawed in water at 60 • C for 24 h. The F-T cycles splitting test was the repeated F-T splitting test, which can be seen elsewhere [46]. The difference is that for the F-T cycles splitting test, specimens were thawed at 60 • C for 6 h. A detailed description of the F-T splitting test and F-T cycles splitting test was provided in our previous studies [40,46].…”
Section: Water Stability and Freeze-thaw Durabilitymentioning
confidence: 99%
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“…For the F-T splitting test, specimens were kept in water at 97.3 to 98.7 kPa (730-740 mmHg) for 15 min, and then immersed into water at atmospheric pressure for 30 min. Subsequently, specimens were frozen at −18 • C in air for 16 h, and then thawed in water at 60 • C for 24 h. The F-T cycles splitting test was the repeated F-T splitting test, which can be seen elsewhere [46]. The difference is that for the F-T cycles splitting test, specimens were thawed at 60 • C for 6 h. A detailed description of the F-T splitting test and F-T cycles splitting test was provided in our previous studies [40,46].…”
Section: Water Stability and Freeze-thaw Durabilitymentioning
confidence: 99%
“…Subsequently, specimens were frozen at −18 • C in air for 16 h, and then thawed in water at 60 • C for 24 h. The F-T cycles splitting test was the repeated F-T splitting test, which can be seen elsewhere [46]. The difference is that for the F-T cycles splitting test, specimens were thawed at 60 • C for 6 h. A detailed description of the F-T splitting test and F-T cycles splitting test was provided in our previous studies [40,46]. The tensile strength ratio after one F-T cycle (TSR-1) was defined as the ratio between ITS of the specimen subjected to one F-T cycle and ITS of the fresh specimen, and the tensile strength ratio after 15 F-T cycles (TSR-15) as the ratio between ITS of the specimen subjected to 15 F-T cycles and ITS of the fresh specimen.…”
Section: Water Stability and Freeze-thaw Durabilitymentioning
confidence: 99%
“…This ensures stabilization of the process of obtaining basalt fiber, which is more effective than basalt melts of another warehouse, in which the zone of optimal values is within 25-40 minutes. At a broaching speed of 25...38.5 m/min of basalt fiber through the spin plate and a cooling rate in the range of 1840...1960 °C/min, fixation of the vitreous state of the fiber material with the formation of active zones on its surface [15,16] (Fig. 5, 6).…”
Section: Resultsmentioning
confidence: 99%
“…Cheng et al [33] made an overall assessment of the mechanical performances of asphalt materials incorporating of basalt fiber and analyzed the improvement impact of F-T resistance based on volumetric and mechanical parameters. Furthermore, they analyzed logistic F-T damage models of asphalt mixtures and established a multi-variable grey model [34]. Cheng et al [35] established a damage evolution of the mechanical performance of asphalt mixtures exposed to repeated F-T actions through reliability and damage theory, and predicted and analyzed its internal damage degradation.…”
Section: Introductionmentioning
confidence: 99%