|
|||||
|
|
Proposed engineering of gypsiferous soil classification |
|
| Authors: | Moutaz A Al-Dabbas Tom Schanz Mohammed J Yassen |
| Institution: | 1. Science College, University of Baghdad, Baghdad, Iraq 2. Ruhr-University of Bochum, Bochum, Germany 3. College of Engineering, University of Mustansyria, Baghdad, Iraq |
| Abstract: | Proposed engineering of gypsiferous soil classification is given. This classification depends on soil texture, mineralogy, geochemistry and engineering properties. Study areas are located within the Mesopotamian plain and include four locations, namely, Najaf, Karbala, Falluja and Samarra which are located between latitudes 32° and 35° and longitudes 43° and 44° 30??. The study performed includes analyses of soil samples for their mineralogy and physical and engineering properties as well as the chemical analyses of soil water extracts. The results suggest that these soils consist of different percentages of sand, silt, clay and some gravel. Analysis also detected secondary gypsum, quartz, calcite, feldspar, different types of rock fragments and different types of heavy minerals in trace amount. Clay minerals are dominated by palygorskite. Hydrochemical analysis results of soil water extracts show that the calcium and sulphate ions are most common, followed by sodium, bicarbonate, chloride, magnesium and potassium. Bicarbonate and chloride show increased values in Karbala and Najaf areas. The highest gypsum content reached 67.5% in the Samarra area, while the lowest is in Karbala, which reached 28.9%.The physical and engineering properties of the studied soils were determined. Samples which were allowed to soak in water show a sudden drop in unconfined compressive strength, compression and shear values immediately after soaking and then decreased gradually. This classification of gypsiferous soils is composed of two classes: gypsiferous soil and highly gypsiferous soil, according to their gypsum content and initial void ratio, coefficient of curvature, coefficient of uniformity, the collapse potential, the compressive strength, cohesion, plasticity index, content of fines and the total dissolve solids of the soil water extracts. It is believed that this newly proposed classification for gypsiferous soils can be applied to other locations and therefore will be useful for other soil scientists and engineers as well because this classification depends on soil texture, mineralogy, geochemistry and engineering properties, while the other existing classifications deal with only one of these variables. |
| Keywords: | |
| 本文献已被 SpringerLink 等数据库收录! | |