Bibliographic citations
Carnero, D., Martos, J. (2019). Influencia de las partículas granulares de la valva del molusco bivalvo en el CBR de subrasantes arcillosas del pueblo chepate, distrito de cascas, la libertad [Tesis, Universidad Privada Antenor Orrego - UPAO]. https://hdl.handle.net/20.500.12759/4618
Carnero, D., Martos, J. Influencia de las partículas granulares de la valva del molusco bivalvo en el CBR de subrasantes arcillosas del pueblo chepate, distrito de cascas, la libertad [Tesis]. : Universidad Privada Antenor Orrego - UPAO; 2019. https://hdl.handle.net/20.500.12759/4618
@misc{renati/380574,
title = "Influencia de las partículas granulares de la valva del molusco bivalvo en el CBR de subrasantes arcillosas del pueblo chepate, distrito de cascas, la libertad",
author = "Martos Chávez, Josef Fernando",
publisher = "Universidad Privada Antenor Orrego - UPAO",
year = "2019"
}
In this thesis, the influence of the bivalve mollusk shell was evaluated as a mechanical stabilizer for a clayey soil, the shell of the bivalve mollusk evaluated was that of the Choro de Mar mollusk. Foreign regulations such as the Florida Department of Transportation Standard Specifications for Road and Brigde Construction and Orange County Utilities Master CIP Technical Specifications evaluate the use of the shell of the sea shell as a stabilizer for different layers of flexible pavement improving the resistance of the soil in front to an applied load (CBR), however, in Peru that method is known at the thesis level. The ratios of variation of the dimensions in the crushing of the Choro de Mar mollusk are between 35.1mm and 18.4 mm, Four granulometric combinations were carried out and evaluated for each sample extracted in each kilometer of the road section to be evaluated, complying with ASTM - 1241 regulations as well as compliance with the Peruvian Technical Standard. The results obtained indicated that the mollusc shell has physical properties similar to granular soils. With a 28% combination of granular particles from the mollusk shell, an increase of 45% of the CBR of the clay soil was obtained. It was concluded that the sea bivalve mollusk valve works as a stabilizing material for clay soils.
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