Bagasse ash as backfill material
The growing population demands a large food production. This leads to generation of a large amount of by-product and waste product. It affects our ecology and climate in an adverse manner. Climate change and the response to it is not new as it is sometimes thought to be. Now a day the generation of bagasse ash from sugar factory is increasing rapidly. Disposal of by-product from industry is major concern as it required vast area. In some places of India, it is used as fertilizer. Use of bagasse ash as fertilizer seems to be a good option of disposal.
Reclaimed asphalt pavement (RAP) for new pavement construction
India has a very long road network of about 3.93 million km consisting of National highway, State highway, Major district road, other district roads and Village roads. Majority of these roads are with bituminous pavements requiring continuous regular maintenance. In addition to the above, the government has also a very ambitious road development program. All these activities require huge quantities of road construction materials especially stone aggregates. However, the availability of natural resources is limited.
Multi-tiered fly ash wall reinforced with waste plastic bottle geocell
A reinforced wall made by constructing offset at different elevation is called a multi-tiered wall. The disposal of waste such as plastic water bottles and fly ash is a major environmental concern. The study aims at utilizing fly ash as backfill and waste plastic bottle geocell as reinforcement for the wall in a tiered configuration. Laboratory model study and finite element analysis of tiered wall models have been carried out and compared with the single wall.
Numerical analyses on cellular mattress–reinforced fly ash beds overlying soft clay
A cellular mattress used in combination with geomaterials is termeda geocell mattress, a three-dimensional (3D) honeycomb structureconsisting of interconnected multiple cells that can be of differentshapes and sizes. Currently, the cells are generally made of strips ofpolymer sheet or geotextile, geogrid sheets, high density polyethylene(HDPE), or Neoloy polymeric alloy.
Numerical analysis of expanded polystyrene geofoam fill railway embankment on soft ground
In the present study, an attempt has been made to understand the behavior of railway embankment through three-dimensional Plaxis software. The numerical modeling analysis was carried using four different backfill materials such as natural soil, 70% steel slag with 30% soil mixture, fly ash, and expanded polystyrene (EPS) geofoam with three different densities 12, 15 and 20 kg/m3. The comparative investigation of natural soil, steel slag-soil mixture, fly ash, and EPS geofoam as an embankment backfill materials were carried out based on stability and displacement conditions.
Stability of fly ash slopes using waste plastic bottles as a cellular reinforcement
Fly ash is nothing but a pozzolanic material formed from thermal power plants during combustion of coals all over the world using crushed coal to generate electricity, which also results in approximately 1 MT (million tons) of annual production of the by-product fly ash that cannot be assimilated to the geo-environment while being disposed and becomes a major threat for environment pollution and land scarcity. Fly ash in bulk quantity has usually been used extensively for the construction of embankments in highways and railways.
Expanded polystyrene (EPS) geofoam embankments on soft soils
Construction of roadway or railway embankments on soft foundation soil such as marine clay is always a major issue due to poor load carrying capacity and excessive settlements. In such conditions, two major remedies are available. One is ground improvement technique by enhancing the engineering properties of foundation soil and second is reduction in the overburden pressure of structure on foundation soil.
Proposed tests for geofoam
Expanded polystyrene (EPS) geofoam is an interesting area in the fields of geotechnical engineering from past four decades. It is rapidly growing and becoming popular due to its large number of applications as a compressible inclusion, lightweight fill and barrier in various structures. An alternative method for compression and tensile testing of EPS geofoam has been proposed which is comparatively easy in terms of fabricating the test assembly and preparation of test specimens than suggested in other test specifications.
Geotextile reinforced steel slag highway embankment using PLAXIS 3D
In India, steel industry produces 8 million tons (MT) of waste for generation of 25 MT steel annually. An attempt has been made to utilise the steel slag as embankment fill material. Comparative study of embankment modelled with different fill materials such as soil-steel slag mix and natural fill material, using finite element method based software PLAXIS 3D has been carried out. The highway embankment of width 8 meters and 2:1 side slope was modelled using PLAXIS 3D. As the embankment is symmetric with respect to the centre line, only half portion of the embankment was modelled.
Natural prefabricated verticaldrains in marine clay
Consolidation of soil by surcharge loading with prefabricated vertical drains is an effective ground improvement technique in saturated cohesive soils such as marine clay. Four types of band-shaped drains made from singlelayer woven and non-woven jute geotextile filter fabric wrapped around a core of coir ropes or mats, designated as natural drains, were developed and fabricated. Laboratory marine clay confined discharge capacity and large-scale consolidation tests were conducted on the natural drains and commercially available polymer-based drains.