Amirkabir University of Technology Amirkabir Journal of Civil Engineering 2588-297X 49 2 2017 07 23 Effect of Using Ion Exchange Solution in Increasing Bearing Capacity of Clayey Soils with Various Plasticity Index (PI) Effect of Using Ion Exchange Solution in Increasing Bearing Capacity of Clayey Soils with Various Plasticity Index (PI) 305 312 417 10.22060/ceej.2015.417 FA R. Ziaie Moayed Civil Engineering Department, Imam Khomeini International University, Qazvin, Iran Seyed M.H Khatami Civil Engineering Department, Imam Khomeini International University, Qazvin, Iran F. Allahyari Civil Engineering Department, Imam Khomeini International University, Qazvin, Iran Journal Article 2013 11 04 So far, at the most of executive project in Iran, using CBR+4 ion stabilizer solution is a chemical ion-exchange experiments. The necessity of present study is the investigation about the characteristics of strength behavior of clayey soils with various PI stabilized by this method. The performance of stabilized soil samples by“CBR+4” ion-exchange solution in wetting-drying and freeze-thaw cycles also been studied for the first time in this study. In soil stabilization with CBR+4 solution Firstly, according to the amount of soils ion exchange, which is determined by a laboratory chemical test, the required amount of the stabilizer is determined. Then, At the most of executive project in Iran, using Tetrabromomethane (CBR+4) ion stabilizer<br />solution is a chemical ion-exchange experiments. The necessity of present study is the investigation<br />about the characteristics of strength behavior of clayey soils with various plasticity index (PI) stabilized<br />by this method. The performance of stabilized soil samples by CBR+4 ion-exchange solution in wettingdrying<br />and freeze-thaw cycles also been studied for the first time in this study. Firstly, in soil stabilization<br />with CBR+4 solution the required amount of the stabilizer is determined, according to the amount of<br />soils ion exchange, which is determined by a laboratory chemical test. Then, the samples are built in<br />their optimum moisture content and maximum dry densities and after curing the samples for two weeks,<br />dry samples are tested. Soils samples are also tested in saturated condition after two weeks curing time.<br />Saturated samples showed more increase in strength compared to dry samples. Stabilized soil sample<br />are also tested under 1 to 4 freeze-thaw and wetting-drying cycles. Tests results showed that using<br />CBR+4 stabilizer increase bearing capacity of clayey soils. This increase is higher in soils with lower<br />PI. Although freeze-thaw and wetting-drying cycles reduce soils bearing capacity, their strength are<br />significantly more than the un-stabilized samples and is acceptable. So far, at the most of executive project in Iran, using CBR+4 ion stabilizer solution is a chemical ion-exchange experiments. The necessity of present study is the investigation about the characteristics of strength behavior of clayey soils with various PI stabilized by this method. The performance of stabilized soil samples by“CBR+4” ion-exchange solution in wetting-drying and freeze-thaw cycles also been studied for the first time in this study. In soil stabilization with CBR+4 solution Firstly, according to the amount of soils ion exchange, which is determined by a laboratory chemical test, the required amount of the stabilizer is determined. Then, At the most of executive project in Iran, using Tetrabromomethane (CBR+4) ion stabilizer<br />solution is a chemical ion-exchange experiments. The necessity of present study is the investigation<br />about the characteristics of strength behavior of clayey soils with various plasticity index (PI) stabilized<br />by this method. The performance of stabilized soil samples by CBR+4 ion-exchange solution in wettingdrying<br />and freeze-thaw cycles also been studied for the first time in this study. Firstly, in soil stabilization<br />with CBR+4 solution the required amount of the stabilizer is determined, according to the amount of<br />soils ion exchange, which is determined by a laboratory chemical test. Then, the samples are built in<br />their optimum moisture content and maximum dry densities and after curing the samples for two weeks,<br />dry samples are tested. Soils samples are also tested in saturated condition after two weeks curing time.<br />Saturated samples showed more increase in strength compared to dry samples. Stabilized soil sample<br />are also tested under 1 to 4 freeze-thaw and wetting-drying cycles. Tests results showed that using<br />CBR+4 stabilizer increase bearing capacity of clayey soils. This increase is higher in soils with lower<br />PI. Although freeze-thaw and wetting-drying cycles reduce soils bearing capacity, their strength are<br />significantly more than the un-stabilized samples and is acceptable. https://ceej.aut.ac.ir/article_417_41ae36ecb9b3eee609d05b90c14222fb.pdf