A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Characterization of Illinois Aggregates for Subgrade Replacement and Subbase
Construction of a pavement working platform is often needed on soft, unstable soils to provide sufficient stability and adequate immediate support for equipment mobility and paving operations without developing excessive rutting. The aggregate type and quality are important factors for determining the required treatment/ replacement thickness. The overall objective in this project has been to characterize strength, stiffness, and deformation behavior of three crushed and uncrushed aggregate materials, i.e., limestone, dolomite and uncrushed gravel, commonly used in Illinois for subgrade replacement and subbase. The goal has been to develop aggregate thickness correlations with aggregate properties to modify and improve the thickness requirement curve in IDOTs Subgrade Stability Manual based on both laboratory and field performances. The initial laboratory phase of the study presented in this report considered both plastic and non-plastic fines (passing No. 200 sieve or 0.075 mm) blended in the engineered gradations of the limestone, dolomite and uncrushed gravel at 4%, 8%, 12%, and 16% target fines content. From the test results, the most important property at low fines contents (less than 8%) was the aggregate type governed by the angularity, i.e. crushed or uncrushed, and the amount of voids in the aggregate matrix. Especially when plastic fines with a plasticity index or PI of 10 or higher were included, the amount of fines had a drastic effect on aggregate performance.
Characterization of Illinois Aggregates for Subgrade Replacement and Subbase
Construction of a pavement working platform is often needed on soft, unstable soils to provide sufficient stability and adequate immediate support for equipment mobility and paving operations without developing excessive rutting. The aggregate type and quality are important factors for determining the required treatment/ replacement thickness. The overall objective in this project has been to characterize strength, stiffness, and deformation behavior of three crushed and uncrushed aggregate materials, i.e., limestone, dolomite and uncrushed gravel, commonly used in Illinois for subgrade replacement and subbase. The goal has been to develop aggregate thickness correlations with aggregate properties to modify and improve the thickness requirement curve in IDOTs Subgrade Stability Manual based on both laboratory and field performances. The initial laboratory phase of the study presented in this report considered both plastic and non-plastic fines (passing No. 200 sieve or 0.075 mm) blended in the engineered gradations of the limestone, dolomite and uncrushed gravel at 4%, 8%, 12%, and 16% target fines content. From the test results, the most important property at low fines contents (less than 8%) was the aggregate type governed by the angularity, i.e. crushed or uncrushed, and the amount of voids in the aggregate matrix. Especially when plastic fines with a plasticity index or PI of 10 or higher were included, the amount of fines had a drastic effect on aggregate performance.
Characterization of Illinois Aggregates for Subgrade Replacement and Subbase
E. Tutumluer (author) / D. Mishra (author) / A. A. Butt (author)
2009
179 pages
Report
No indication
English
In-Ground Dynamic Stress Measurements for Geosynthetic Reinforced Subgrade/Subbase
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