A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Effects of Asphalt Composition and Compaction on the Performance of Asphalt Pavement Mixtures. Executive Summary
The report is presented in two parts. The first part presents the work done to characterize the fabric of this asphalt sand mix surface and to reproduce this fabric in the laboratory. In addition, it examines the field compaction time requirements for these materials. The second part evaluates the use of blended asphalts, as well as the use of high pressure-gel permeation chromatography to characterize the chemical composition of asphalts. Based upon the comparison of the pore-size distribution of the fabric of both laboratory and field compacted mixtures, the gyratory and kneading compactors created satisfactorily equivalent laboratory fabrics to those of field cores. No major differences in behavior were found for the artificially blended asphalts, in general, although rich asphaltene asphalts show a higher hardening rate at high temperatures. Blended ROSE asphalts do not create differences in performance than straight-run produced asphalts. The asphalt chemical composition does appear associated with individual performance characteristics.
Effects of Asphalt Composition and Compaction on the Performance of Asphalt Pavement Mixtures. Executive Summary
The report is presented in two parts. The first part presents the work done to characterize the fabric of this asphalt sand mix surface and to reproduce this fabric in the laboratory. In addition, it examines the field compaction time requirements for these materials. The second part evaluates the use of blended asphalts, as well as the use of high pressure-gel permeation chromatography to characterize the chemical composition of asphalts. Based upon the comparison of the pore-size distribution of the fabric of both laboratory and field compacted mixtures, the gyratory and kneading compactors created satisfactorily equivalent laboratory fabrics to those of field cores. No major differences in behavior were found for the artificially blended asphalts, in general, although rich asphaltene asphalts show a higher hardening rate at high temperatures. Blended ROSE asphalts do not create differences in performance than straight-run produced asphalts. The asphalt chemical composition does appear associated with individual performance characteristics.
Effects of Asphalt Composition and Compaction on the Performance of Asphalt Pavement Mixtures. Executive Summary
L. E. Wood (author) / A. G. Altschaeffl (author)
1988
16 pages
Report
No indication
English
Compaction of Asphalt Pavement
| NTIS | 1989
Asphalt Pavement Surfaces and Asphalt Mixtures
NTIS | 1996