The effect of void ratio, moisture content and vertical pressure on the hydrocompression settlement of copper mine tailing
Copper mine tailing (CMT) has the potential to be used as embankment material but this waste material contains plasticity. Soils containing plasticity are highly reactive to any form of liquid and considered to have greater compressibility when exposed to water. As an embankment material, CMT is sus...
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oai:animorepository.dlsu.edu.ph:faculty_research-39692024-06-09T23:18:24Z The effect of void ratio, moisture content and vertical pressure on the hydrocompression settlement of copper mine tailing Adajar, Mary Ann Q. Cutora, Miller D.L. Copper mine tailing (CMT) has the potential to be used as embankment material but this waste material contains plasticity. Soils containing plasticity are highly reactive to any form of liquid and considered to have greater compressibility when exposed to water. As an embankment material, CMT is susceptible to different environmental condition which can cause significant settlement. One possible cause of volume loss is the compression due to wetting or hydrocompression. This study aims to determine the consolidation properties and hydrocompression settlement of waste materials with plasticity like copper mine tailing when used as embankment material. One-dimensional consolidation tests were performed on reconstituted specimens. The obtained consolidation properties indicate that CMT is very slightly compressible under over-consolidated condition to moderately compressible under normally consolidated condition. The hydrocompression settlement of CMT in relation to initial void ratio, moisture content and vertical pressure was investigated. The hydrocompression settlement increases with increasing pressure until the preconsolidation pressure is reached, then decreases with pressure beyond the preconsolidation pressure. Samples with lower density and initial water content less than its optimum exhibit greater hydrocompression settlement. The determined hydrocompression strain in every condition is less than 5% which means that CMT has a degree of collapsibility classified as low to negligible despite of having plasticity. CMT when used as embankment materials should be prepared with initial moisture content slightly more than its optimum, it should be in its very dense condition and preloaded with vertical stress more than its preconsolidation pressure to make hydrocompression strain negligible. © 2018, Int. J. of GEOMATE. 2018-04-01T07:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/2970 info:doi/10.21660/2018.44.7108 Faculty Research Work Animo Repository Tailings embankments—Compression testing Civil Engineering |
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Tailings embankments—Compression testing Civil Engineering |
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Tailings embankments—Compression testing Civil Engineering Adajar, Mary Ann Q. Cutora, Miller D.L. The effect of void ratio, moisture content and vertical pressure on the hydrocompression settlement of copper mine tailing |
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Copper mine tailing (CMT) has the potential to be used as embankment material but this waste material contains plasticity. Soils containing plasticity are highly reactive to any form of liquid and considered to have greater compressibility when exposed to water. As an embankment material, CMT is susceptible to different environmental condition which can cause significant settlement. One possible cause of volume loss is the compression due to wetting or hydrocompression. This study aims to determine the consolidation properties and hydrocompression settlement of waste materials with plasticity like copper mine tailing when used as embankment material. One-dimensional consolidation tests were performed on reconstituted specimens. The obtained consolidation properties indicate that CMT is very slightly compressible under over-consolidated condition to moderately compressible under normally consolidated condition. The hydrocompression settlement of CMT in relation to initial void ratio, moisture content and vertical pressure was investigated. The hydrocompression settlement increases with increasing pressure until the preconsolidation pressure is reached, then decreases with pressure beyond the preconsolidation pressure. Samples with lower density and initial water content less than its optimum exhibit greater hydrocompression settlement. The determined hydrocompression strain in every condition is less than 5% which means that CMT has a degree of collapsibility classified as low to negligible despite of having plasticity. CMT when used as embankment materials should be prepared with initial moisture content slightly more than its optimum, it should be in its very dense condition and preloaded with vertical stress more than its preconsolidation pressure to make hydrocompression strain negligible. © 2018, Int. J. of GEOMATE. |
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text |
| author |
Adajar, Mary Ann Q. Cutora, Miller D.L. |
| author_facet |
Adajar, Mary Ann Q. Cutora, Miller D.L. |
| author_sort |
Adajar, Mary Ann Q. |
| title |
The effect of void ratio, moisture content and vertical pressure on the hydrocompression settlement of copper mine tailing |
| title_short |
The effect of void ratio, moisture content and vertical pressure on the hydrocompression settlement of copper mine tailing |
| title_full |
The effect of void ratio, moisture content and vertical pressure on the hydrocompression settlement of copper mine tailing |
| title_fullStr |
The effect of void ratio, moisture content and vertical pressure on the hydrocompression settlement of copper mine tailing |
| title_full_unstemmed |
The effect of void ratio, moisture content and vertical pressure on the hydrocompression settlement of copper mine tailing |
| title_sort |
effect of void ratio, moisture content and vertical pressure on the hydrocompression settlement of copper mine tailing |
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Animo Repository |
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2018 |
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https://animorepository.dlsu.edu.ph/faculty_research/2970 |
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