Citas bibligráficas
Castro, A., (2017). Estabilización de suelos arcillosos con ceniza de cascara de arroz para el mejoramiento de subrasante [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/10054
Castro, A., Estabilización de suelos arcillosos con ceniza de cascara de arroz para el mejoramiento de subrasante [Tesis]. : Universidad Nacional de Ingeniería; 2017. http://hdl.handle.net/20.500.14076/10054
@misc{renati/708396,
title = "Estabilización de suelos arcillosos con ceniza de cascara de arroz para el mejoramiento de subrasante",
author = "Castro Cuadra, Axel Franco",
publisher = "Universidad Nacional de Ingeniería",
year = "2017"
}
Annually agricultural production generates a lot of waste materials such as rice husk ash, which generate environmental problems by the disposal of these. In 2015, 630 280 tonnes of rice husks were generated, it represents 126,000 tonnes of rice husk ash. Also, in the department of San Martin has the presence of fine soils, which generally have inadequate support capacity to support structures such as pavement and loads that are transmitted due to vehicular traffic. The thesis consisted in the development of an alternative method for the stabilization of clay soils using a waste agricultural as the rice husk ash for the use of a subgrade level. The research began with the study of the samples from which were obtained from the department of San Martín. The study of the physical, mechanical and chemical characteristics of the materials obtained was carried out in the laboratory. Soil mixtures with rice husk ash were carried out in different percentages to evaluate their geotechnical behavior as a primary stabilizer. In addition, combinations with clay soil, rice husk and lime ash were made to increase the properties and to know if the rice husk ash acts as a secondary stabilizing agent. The results obtained show an improvement due to the presence of rice husk ash. The combinations of clay soil, rice husk ash and lime achieved greater advantages than combinations of clay soils and rice husk ash. It was possible to increase the value of support of california (CBR) of 5.0% to 19.4% by making combinations of clay soil and rice husk ash, with the mixture having 20% of rice husk ash. However, the increase in California support value (CBR) for combinations of clay soil, rice husk ash and lime increased from 5.0% to 38.5% with 20% rice husk ash. On the other hand, the unconfined compressive strength showed an increase from 6.91 kg /cm2 to 8.77 kg /cm2, for the combination of clay soil with 20% of rice husk ash. The unconfined compressive strength showed to the soil combination clay soil with 10% rice husk ash and clay soil generate an increase from 6.91 kg /cm2 to 9.96 kg /cm2. The high percentage of silicic material present in the rice husk ash promises its use as a potential stabilizing agent for primary and secondary soils. That generate a possible solution to an environmental problem, which is the disposal of the rice husk, which could generate a decrease in sanitary landfills, the reduction of pollution of rivers, and others. The research concludes that the use of rice husks as soil stabilization material in pavement works promises good results and is more favorable when used as a secondary stabilizing agent
Este ítem está sujeto a una licencia Creative Commons Licencia Creative Commons