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IMPROVED LOW-TEMPERATURE FRACTURE PERFORMANCE FOR RUBBER-MODIFIED ASPHALT BINDERS.
| 题名: | IMPROVED LOW-TEMPERATURE FRACTURE PERFORMANCE FOR RUBBER-MODIFIED ASPHALT BINDERS. |
| 作者: | Hui-JCT; Morrison-GR; Hesp-SAM |
| 关键词: | LOW-TEMPERATURES; FRACTURE-TOUGHNESS; ASPHALT-RUBBER; BINDERS-; CRUMB-RUBBER; DEVULCANIZED-RUBBER; PERFORMANCE-EVALUATIONS; FRACTURE-TESTS; GROUND-RUBBER-TIRES; SULFUR-; POLYBUTADIENE- |
| 摘要: | The low-temperature fracture toughness was determined for rubber-modified asphalt binders. Crumb rubber tire, both plain and surface modified, and devulcanized rubber tire were investigated for their effectiveness in improving low-temperature asphalt binder performance in a notched, three-point bending beam fracture test. The increases in low-temperature fracture toughness for unmodified crumb rubber-asphalt mixtures were highest for fine ground rubber. At loading levels of 4 to 10 wt percent on the binder, the fracture toughness for 10- and 20-mesh ground rubber tire-modified samples was not significantly different from that of the unmodified binders. Reasonable increases in toughness were found for binder modification with 4 to 10 wt percent 30-, 40-, and 80-mesh rubber samples. An in situ sulfur grafting reaction of low-molecular-weight polybutadiene onto the crumb rubber dramatically increases the fracture performance for both coarse and fine crumb rubber-modified binders. A 9- and 15-fold increase in added fracture toughness was observed for binders containing 7 wt percent of 10- and 20-mesh cryogenically ground rubber tire. Whether these improvements will translate into a reduction in transverse thermal stress cracking remains to be investigated in further tests on binder-aggregate mixes and in field trials. The fracture toughness for a devulcanized rubber-modified asphalt was also investigated. The homogeneous sample contained as much as 10 wt percent devulcanized rubber tire but performed only marginally better than an 85-100 penetration control sample. Reaction of the devulcanized rubber-modified binder with sulfur increases its fracture toughness by 18 percent. |
| 总页数: | Transportation Research Record. 1994. (1436) pp83-87 (1 Fig., 6 Tab., 31 Ref.) |
| 报告类型: | 科技报告 |
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