Effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay
Water content and specific gravity are two fundamental soil properties. The water content is usually measured by the oven-drying method, and the dried soil is used for specific gravity determination of the soil. However, for cement-stabilized soils, high oven temperature accelerates the cement hydra...
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sg-ntu-dr.10356-1462512022-05-25T02:37:40Z Effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay Yu, Hua Yi, Yaolin Puppala, Anand J. School of Civil and Environmental Engineering Engineering::Civil engineering Water Content Specific Gravity Water content and specific gravity are two fundamental soil properties. The water content is usually measured by the oven-drying method, and the dried soil is used for specific gravity determination of the soil. However, for cement-stabilized soils, high oven temperature accelerates the cement hydration rate and causes dehydration of some clay minerals, which may affect the measurement accuracy of water content and soil specific gravity. Hence, researchers have proposed the use of ethanol to terminate cement hydration reactions and a low oven temperature to reduce the dehydration of hydration products. To verify the effectiveness, this experimental study investigated the effects of oven temperature (60°C and 110°C) and the addition of ethanol on the measurements of both water content and specific gravity of cement-stabilized soft clay. These measurements are compared with those measured with the freeze-drying method, which is termed as a control measurement. The test results indicated that the effect of ethanol on water content measurement was insignificant. For 7-day stabilized clay, oven drying at 110°C achieved lower errors (3.06-3.63 %) than the oven-drying method at 60°C (7.36-9.44 %). For 180-day cement-stabilized clay, all the oven-drying methods had similar measurement errors (4.02-5.58 %). The effect of drying method on the specific gravity measurement was insignificant, with the percentage of measurement error ranging from 0.19 to 2.17 %. Nanyang Technological University Published version The authors wish to acknowledge the funding support (M4081914) from Nanyang Technological University, Singapore. 2021-02-04T03:59:10Z 2021-02-04T03:59:10Z 2020 Journal Article Yu, H., Yi, Y., & Puppala, A. J. (2020). Effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay. Geotechnical Testing Journal, 44(5), 20200039-. doi:10.1520/gtj20200039 0149-6115 0000-0003-4462-4010 0000-0002-1188-3799 0000-0003-0435-6285 https://hdl.handle.net/10356/146251 10.1520/GTJ20200039 2-s2.0-85098651680 5 44 en M4081914 Geotechnical Testing Journal 10.21979/N9/SPHU1N © 2020 ASTM International. All rights reserved. This paper was published in Geotechnical Testing Journal and is made available with permission of ASTM International. application/pdf |
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Engineering::Civil engineering Water Content Specific Gravity Yu, Hua Yi, Yaolin Puppala, Anand J. Effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay |
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Water content and specific gravity are two fundamental soil properties. The water content is usually measured by the oven-drying method, and the dried soil is used for specific gravity determination of the soil. However, for cement-stabilized soils, high oven temperature accelerates the cement hydration rate and causes dehydration of some clay minerals, which may affect the measurement accuracy of water content and soil specific gravity. Hence, researchers have proposed the use of ethanol to terminate cement hydration reactions and a low oven temperature to reduce the dehydration of hydration products. To verify the effectiveness, this experimental study investigated the effects of oven temperature (60°C and 110°C) and the addition of ethanol on the measurements of both water content and specific gravity of cement-stabilized soft clay. These measurements are compared with those measured with the freeze-drying method, which is termed as a control measurement. The test results indicated that the effect of ethanol on water content measurement was insignificant. For 7-day stabilized clay, oven drying at 110°C achieved lower errors (3.06-3.63 %) than the oven-drying method at 60°C (7.36-9.44 %). For 180-day cement-stabilized clay, all the oven-drying methods had similar measurement errors (4.02-5.58 %). The effect of drying method on the specific gravity measurement was insignificant, with the percentage of measurement error ranging from 0.19 to 2.17 %. |
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School of Civil and Environmental Engineering |
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School of Civil and Environmental Engineering Yu, Hua Yi, Yaolin Puppala, Anand J. |
| format |
Article |
| author |
Yu, Hua Yi, Yaolin Puppala, Anand J. |
| author_sort |
Yu, Hua |
| title |
Effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay |
| title_short |
Effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay |
| title_full |
Effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay |
| title_fullStr |
Effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay |
| title_full_unstemmed |
Effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay |
| title_sort |
effects of oven temperature and addition of ethanol on measurement of water content and specific gravity of cement-stabilized soft clay |
| publishDate |
2021 |
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https://hdl.handle.net/10356/146251 |
| _version_ |
1734310191077261312 |