On the Use of Expanded Geofoam Inclusion to Reduce Earth Pressure on Retaining Structures Under Static and Dynamic Loading
Author | : Muhammad Imran Khan |
Publisher | : |
Total Pages | : |
Release | : 2021 |
ISBN-10 | : OCLC:1291127350 |
ISBN-13 | : |
Rating | : 4/5 (50 Downloads) |
Download or read book On the Use of Expanded Geofoam Inclusion to Reduce Earth Pressure on Retaining Structures Under Static and Dynamic Loading written by Muhammad Imran Khan and published by . This book was released on 2021 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: "Expanded polystyrene (EPS) geofoam has been increasingly used in geotechnical engineering applications either as lightweight fill material or as compressible inclusion to reduce earth pressure on earth retaining structure under both static and dynamic loading. These applications involve the installation of geofoam blocks in direct contact with other materials (e.g. steel, soil, concrete etc.) forming a composite structure. In this thesis an attempt has been made to experimentally determine shear strength of monoblock of EPS geofoam and interface strength of geofoam interacting with different materials. Further, numerical studies are carried out to investigate the role of EPS geofoam in reducing lateral earth pressure on rigid non-yielding retaining walls under static and dynamic loading conditions. First, a series of direct shear tests has been conducted on geofoam samples of three different densities, namely, 15 kg/m3, 22 kg/m3 and 39 kg/m3 under three different normal stresses 18, 36 and 54 kPa. In addition, interface shear tests are also conducted to determine the interface strength parameters as these geofoam blocks interact with selected materials (e.g. PVC, sand, concrete, steel, wood). Test results revealed that geofoam density and applied normal stress have significant effects on the vertical compression and interface strength properties. Next, a 2D plane strain finite element model is developed to investigate the effectiveness of EPS geofoam in reducing static earth pressure on rigid retaining wall. Numerical model is first validated with the results of physical tests. A parametric study is then carried out to investigate the role of EPS geofoam density, relative thickness and backfill frictional properties on reduction of static lateral earth pressure on the wall. Three different geofoam samples having three different thicknesses interacting with four different backfill soils were used in this study. Finally, a 2D plane strain finite element model is developed to study the role of EPS geofoam in reducing seismic earth pressure. Numerical model is first validated against the results of reduced scale shaking table tests. A numerical parametric study is then conducted to investigate the effectiveness of EPS geofoam density, relative thickness and backfill frictional properties on reduction of seismic earth pressure on the rigid retaining wall. Four different geofoam samples having three different thicknesses interacting with four different backfill materials are used in this study. The results of numerical studies are presented in the form of design charts for practical implication"--