dc.description.abstract |
Design of the pavement layer to be laid over the subgrade soil can start with the
estimation of subgrade strength or capacity and the volume of traffic to be carried.
Various pavement layers are very much dependent on the strength of subgrade soil over
which they are going to be laid. The subgrade soil can be subjected to change in moisture
or saturation level due to capillary rise/saturation (hc). Change in moisture level in
subgrade soil causes change in mechanical properties of subgrade material leading to
pavement weakness and it can be quite essential for engineers to understand the effects of
capillary rise on the variation of moisture in subgrade soil and effects on the strength
properties. The hydraulic conductivity of subgrade soil can be strongly dependent on the
texture (contents), grain size, densities and voids of the soil. Keeping this in mind this
study has been carried out to evaluate the effects capillary rise/saturation on properties
of subgrade soil. This research has also shown that measuring the height of capillary
rise/saturation through, rate capillary rise through and effects of capillary saturation on
the strength properties of subgrade soil.
The strength properties of subgrade soil is mostly expressed in terms of CBR and
understanding the dependence of CBR strength of subgrade soil on water content
(moisture variation) contribute better towards the design and maintenance practices. The
strength of subgrade soil may vary largely on the amount of saturation in it. Hence in this
research experimental investigation has been made are to determine hydraulic
conductivity (rate of capillary rise) of the subgrade soil at different level of densities and
height of capillary rise through subgrade soil and important geo-technical properties
specific gravity, liquid limit, plastic limit, plasticity index, free swell index, Dry density
and California Bearing Ratio at different level saturation from day (0) to day (4) through
the purposive sampling for each station.
It observed that for each stations (type) subgrade soils, Hydraulic conductivity or rate
capillary rise of subgrade soil within any densities and the strength properties reduced.
For type one soil at station 25+200 subgrade soils, the CBR values reduced by 82% to
the un soaked condition or no change in moisture and for second type at station 35+00
soils, the CBR values reduced by 77.3% to Unsoaked condition. This review Provide a
subgrade soil with non-susceptible to hydraulic conductivity which can reduces flow of
water through them which is providing the subgrade soil with a minimum diameter of
grain size with corresponding to 10% finer in the distribution and further study should be
carried out on the other factor that cause variation of moisture in a subgrade soil. |
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