Abstract Recent studies have investigated the influence of Iraqi stabilizer materials on the stability of artificially lead-contaminated soil. Prior research has not been able to predict the non-linear erodibility model (Wilson model) of mechanistic parameters (b 0 and b 1) from jet erosion tests (JETs) due to lead-contaminated soil treated with different stabilizers. The aims of this research are to 1) mathematically evaluate the detachment parameters (b 0 and b 1) of the Wilson model from JETs of lead-contaminated soil samples treated with different percentages of three common Iraqi stabilizers (lime, cement, and bitumen) at different curing times (24 hrs, 72 hrs, and 168 hrs), and 2) to develop relationships between the parameters, b 0 and b 1, in addition to the physical and chemical soil characteristics. JETs are utilized to determine the mechanistic erodibility parameters b 0 and b 1 from observed scour data of packed contaminated soils at optimum soil moisture level. The results show that observed scour depths are reduced for treated lead-contaminated soils in JET experiments. The observed b 1 values increased at different curing times, while a significant reduction in b 0 is observed. The proposed formulas are able to mathematically predict the influence of different stabilizers on the mechanistic erodibility parameters (b 0 and b 1) of treated contaminated soils with a prior JET experiment based on stabilizer coefficients.
Predicting Mechanistic Detachment Model due to Lead-Contaminated Soil Treated with Iraqi Stabilizers
KSCE Journal of Civil Engineering ; 23 , 7 ; 2898-2907
2019-05-27
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Predicting Mechanistic Detachment Model due to Lead-Contaminated Soil Treated with Iraqi Stabilizers
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