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PRODUCTION OF ASPHALT-RUBBER BINDERS BY HIGH-CURE CONDITIONS.
| 题名: | PRODUCTION OF ASPHALT-RUBBER BINDERS BY HIGH-CURE CONDITIONS. |
| 作者: | Billiter-TC; Davison-RR; Glover-CJ; Bullin-JA |
| 关键词: | ASPHALT-RUBBER; COMPOSITIONS-INGREDIENTS; RUBBER-CONTENT; RUBBER-MESH-SIZE; CURING-TIME; CURING-TEMPERATURES; MIXING-RATE; MATERIAL-PROPERTIES; RUBBER-DISSOLUTION; RUBBER-SETTLING; MOLECULAR-WEIGHT-DISTRIBUTION; RHEOLOGICAL-PROPERTIES; DEVULCANIZAITON-; DEPOLYMERIZATION-; COMPACTION-; VISCOSITY-; HOT-MIX-ASPHALT; STIFFNESS-; LOW-TEMPERATURES |
| 摘要: | A curing study was undertaken to determine the effect that asphalt composition, rubber content, rubber mesh size, curing time, curing temperature, and rate of mixing have on asphalt-rubber properties. Curing temperatures of 232 deg C or 260 deg C (450 deg F or 500 deg F) and a high-shear laboratory mixer were used to produce the asphalt-rubber blends. The properties studied were rubber dissolution; rubber settling; molecular weight distribution; and low-, intermediate-, and high-temperature rheological properties. Increasing the curing temperature from 232 deg C to 260 deg C (450 deg F to 500 deg F) drastically increased the rate of devulcanization and depolymerization of the rubber, whereas increasing the rate of mixing from 4,000 rpm to 8,000 rpm drastically decreased the settling rate of rubber in a binder. Lower-molecular-weight asphalts were better at devulcanizing the rubber; higher-molecular-weight asphalts were better at depolymerizing the rubber. These high-cure binders are homogeneous in appearance and slow to phase separate on standing; they have acceptable compaction viscosities at hot-mix temperatures, higher G*/sin delta at rutting temperatures, and lower stiffness at cold temperatures than does the base asphalt. |
| 总页数: | Transportation Research Record. 1997. (1586) pp50-56 (8 Fig., 5 Tab., 11 Ref.) |
| 报告类型: | 科技报告 |
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