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Improved methods for filtration, drainage and structural evaluations with and without geocomposites for subsurface drainage of pavements

By:

Kalore, Shubham Arun

Contributor(s):

Sivakumar Babu, G L advised

Material type: Book

BookLanguage: en Publication details: Bangalore : IISc , 2023 .Description: xxvii, 281p. col. ill. ; 29.1 cm * 20.5 cm e-Thesis 13.74MbDissertation: PhD; 2023; Civil engineeringSubject(s):

DDC classification:

624 SHU

Online resources:

Click here to access online

Dissertation note: PhD; 2023; Civil engineering Summary: Pavements are continuously exposed to the environment leading to ingress of water from multiple sources that structurally weakens the pavement materials. The conventional solution for drainage requires granular material of a minimum thickness of 250 mm, reflecting a massive demand for suitable quality aggregates. The potential alternative to reduce the demand is incorporating a drainage geocomposite in pavements. In this thesis, improved methods for filtration, drainage, and structural evaluations with and without geocomposites are developed. The unbounded granular materials are required to be internally stable to perform self-filtration. This study investigates the practical utility of Cu and Cc in evaluating the internal stability of soils. A theoretical approach for predicting critical hydraulic gradients is developed based on the notion of differential void states of fine fraction of internally unstable soils. Granular and geotextile filters are provided in the subsurface drainage systems to limit soil erosion and allow unimpeded water seepage. In this thesis, improved design criteria are developed for the filter requirements of soil retention, hydraulic conductivity, and clogging.

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Holdings
Item type	Current library	Call number	Status	Date due	Barcode
E-BOOKS	JRD Tata Memorial Library	624 SHU (Browse shelf(Opens below))	Available		ET00163

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PhD; 2023; Civil engineering

Pavements are continuously exposed to the environment leading to ingress of water from multiple sources that structurally weakens the pavement materials. The conventional solution for drainage requires granular material of a minimum thickness of 250 mm, reflecting a massive demand for suitable quality aggregates. The potential alternative to reduce the demand is incorporating a drainage geocomposite in pavements. In this thesis, improved methods for filtration, drainage, and structural evaluations with and without geocomposites are developed. The unbounded granular materials are required to be internally stable to perform self-filtration. This study investigates the practical utility of Cu and Cc in evaluating the internal stability of soils. A theoretical approach for predicting critical hydraulic gradients is developed based on the notion of differential void states of fine fraction of internally unstable soils. Granular and geotextile filters are provided in the subsurface drainage systems to limit soil erosion and allow unimpeded water seepage. In this thesis, improved design criteria are developed for the filter requirements of soil retention, hydraulic conductivity, and clogging.

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