Bibliographic citations
Terrones, A., (2019). Estabilización de suelos arcillosos adicionando cenizas de bagazo de caña para el mejoramiento de subrasante en el sector Barraza, Trujillo – 2018 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/14971
Terrones, A., Estabilización de suelos arcillosos adicionando cenizas de bagazo de caña para el mejoramiento de subrasante en el sector Barraza, Trujillo – 2018 [Tesis]. PE: Universidad Privada del Norte; 2019. https://hdl.handle.net/11537/14971
@misc{renati/509372,
title = "Estabilización de suelos arcillosos adicionando cenizas de bagazo de caña para el mejoramiento de subrasante en el sector Barraza, Trujillo – 2018",
author = "Terrones Cruz, Andrea Thatiana",
publisher = "Universidad Privada del Norte",
year = "2019"
}
Sugar bagasse ash (CBCA) can be used as a means to stabilize soils in new road infrastructure projects, to have a sustainable construction, thus reducing environmental effects. The present work consists in the stabilization of a clayey soil - limoso present in the access road to the Barraza sector by the addition of sugarcane ash, in different percentages (5%, 10% and 15% with respect to dry soil) , which was the cause of the agroindustrial company Laredo. During the experimental process, soil characterization tests will be carried out; In addition, the optimum moisture percentage, the maximum dry density, the simple, unconfined compressive strength and the CBR percentage were obtained. In order to obtain the percentage of CBCA with which it has been possible to comply with them, a subgrade has to be complied with according to the Road - Soils, Geology, Geotechnics and Pavements Manual of the Ministry of Transport and Communications, a total of 36 specimens have been prepared 4 “diameter cylindrical, evaluating the simple compression resistance not confined to 7 days of curing. Likewise, for the verification of this data, 6 specimens were prepared, which were submitted to the CBR test. Based on the results, it was determined that the amount of 15% of CBCA to the soil sample was met with the requirements indicated in the manual mentioned above, that an average resistance of 150.60 kPa and a CBR percentage of 23.67%. Our results allow us to use the CBCA to stabilize the soil, to obtain positive benefits in the companies related to the construction of road infrastructure, because, being a waste, generate less costs in the acquisition of the product and therefore lower cost in the maintenance stage.
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