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Alemán, A., (2017). Resistencia a compresión axial del mortero cemento – arena 1:4 con el reemplazo de vidrio molido [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/11191
Alemán, A., Resistencia a compresión axial del mortero cemento – arena 1:4 con el reemplazo de vidrio molido [Tesis]. PE: Universidad Privada del Norte; 2017. https://hdl.handle.net/11537/11191
@misc{renati/518913,
title = "Resistencia a compresión axial del mortero cemento – arena 1:4 con el reemplazo de vidrio molido",
author = "Alemán Laura, Anthony Roswell",
publisher = "Universidad Privada del Norte",
year = "2017"
}
Title: Resistencia a compresión axial del mortero cemento – arena 1:4 con el reemplazo de vidrio molido
Authors(s): Alemán Laura, Anthony Roswell
Advisor(s): Ravines Azañero, Irene Del Rosario
Keywords: Resistencia a la compresión; Vidrio; Cemento
OCDE field: https://purl.org/pe-repo/ocde/ford#2.01.01
Issue Date: 5-Oct-2017
Institution: Universidad Privada del Norte
Abstract: RESUMEN
En el presente trabajo de investigación se ha realizado la comparación de la resistencia a
compresión de un mortero cemento-arena con dosificación 1:4, con reemplazo parcial del
cemento por vidrio molido pasante la malla N° 200 en tres porcentajes de 5%, 10% y 15%,
se ha seleccionado la cantera Roca Fuerte ubicada en el distrito de Baños del Inca, de la
cual se han analizado sus propiedades físicas determinándose que su granulometría está
dentro de los límites de acuerdo a la norma ASTM C-33, su módulo de finura es 2.97,
gravedad específica 2.621 gr/cm3
, absorción 2.775%, peso unitario suelto 1719.979 Kg/m3
,
peso unitario compactado 1846.617 Kg/m3 y contenido de humedad 6.172%; así mismo,
se verificó la finura del cemento Pacasmayo Extraforte ICO, encontrándose su valor de
12.27%, y del mismo modo se evaluó la finura del vidrio determinándose un valor de
1.40%; se ha propuesto 4 edades de curado: 24 horas, 3 días, 7 días y 28 días,
registrándose que las resistencias promedio del mortero patrón son 22.01 kg/cm2
,
24.20 kg/cm2
, 128.78 kg/cm2
, 151.76 kg/cm2
, respectivamente, para el mortero con
reemplazo del 5% se registró las resistencias promedios 20.36 kg/cm2
, 77.55 kg/cm2
,
156.73 kg/cm2
, 181.01 kg/cm2
,respectivamente, para el mortero con reemplazo del 10% se
registró las resistencias promedios 15.32 kg/cm2
, 56.79 kg/cm2
, 106.86 kg/cm2
, 142.32
kg/cm2
, respectivamente; y por último para el mortero con reemplazo del 15% se registró
las resistencias promedios 20.88 kg/cm2
, 65.70 kg/cm2
, 112.09 kg/cm2
, 138.36 kg/cm2
;
llegando a determinar que a mayor incorporación de vidrio molido como reemplazo del
cemento disminuye la resistencia a compresión axial, sin embargo también se identificó a
su vez que las máxima resistencia obtenida es con el reemplazo de 5% logrando incluso
superar la resistencia a compresión axial de la probeta patrón.
ABSTRACT In the present work the comparison of the compressive strength of a cement-sand mortar with a 1:4 dosage, with partial replacement of the cement by grinding glass through the mesh N° 200 in three percentages of 5%, 10% and 15%, has selected the Roca Fuerte quarry located in the district of Baños del Inca, whose physical properties have been analyzed determining that their granulometry is within the limits according to ASTM C33, its module of fineness is 2.97, specific gravity 2.621 gr/cm3 , absorption 2.775%, unit weight loose 1719.979 kg/m3 , compacted unit weight 1846.617 kg/m3 and moisture content 6.172%; In addition, the fineness of the Pacasmayo Extraforte ICO cement was verified, its value being 12.27%, and the fineness of the glass was also evaluated, determining a value of 1.40%; it has been proposed 4 curing ages: 24 hours, 3 days, 7 days and 28 days, with the average resistance of the standard mortar being 22.01 kg/cm2 , 24.20 kg/cm2 , 128.78 kg/cm2 , 151.76 kg/cm2 , respectively , for the mortar with 5% replacement the average resistance was recorded 20.36 kg/cm2 , 77.55 kg/cm2 , 156.73 kg/cm2 , 181.01 kg/cm2 respectively, for the mortar with 10% replacement the average resistance was recorded 15.32 kg/cm2 , 56.79 kg/cm2 , 106.86 kg/cm2 , 142.32 kg/cm2 , respectively; and finally for the mortar with replacement of 15% the average resistance was recorded 20.88 kg/cm2 , 65.70 kg/cm2 , 112.09 kg/cm2 , 138.36 kg/cm2 ; arriving to determine that the greater incorporation of ground glass as a replacement of the cement decreases the resistance to axial compression, however it was also identified in turn that the maximum resistance obtained is with the replacement of 5% even managing to overcome the resistance to axial compression of the standard test piece.
ABSTRACT In the present work the comparison of the compressive strength of a cement-sand mortar with a 1:4 dosage, with partial replacement of the cement by grinding glass through the mesh N° 200 in three percentages of 5%, 10% and 15%, has selected the Roca Fuerte quarry located in the district of Baños del Inca, whose physical properties have been analyzed determining that their granulometry is within the limits according to ASTM C33, its module of fineness is 2.97, specific gravity 2.621 gr/cm3 , absorption 2.775%, unit weight loose 1719.979 kg/m3 , compacted unit weight 1846.617 kg/m3 and moisture content 6.172%; In addition, the fineness of the Pacasmayo Extraforte ICO cement was verified, its value being 12.27%, and the fineness of the glass was also evaluated, determining a value of 1.40%; it has been proposed 4 curing ages: 24 hours, 3 days, 7 days and 28 days, with the average resistance of the standard mortar being 22.01 kg/cm2 , 24.20 kg/cm2 , 128.78 kg/cm2 , 151.76 kg/cm2 , respectively , for the mortar with 5% replacement the average resistance was recorded 20.36 kg/cm2 , 77.55 kg/cm2 , 156.73 kg/cm2 , 181.01 kg/cm2 respectively, for the mortar with 10% replacement the average resistance was recorded 15.32 kg/cm2 , 56.79 kg/cm2 , 106.86 kg/cm2 , 142.32 kg/cm2 , respectively; and finally for the mortar with replacement of 15% the average resistance was recorded 20.88 kg/cm2 , 65.70 kg/cm2 , 112.09 kg/cm2 , 138.36 kg/cm2 ; arriving to determine that the greater incorporation of ground glass as a replacement of the cement decreases the resistance to axial compression, however it was also identified in turn that the maximum resistance obtained is with the replacement of 5% even managing to overcome the resistance to axial compression of the standard test piece.
Link to repository: https://hdl.handle.net/11537/11191
Discipline: Ingeniería Civil
Grade or title grantor: Universidad Privada del Norte. Facultad de Ingeniería
Grade or title: Ingeniero Civil
Register date: 23-Oct-2017
This item is licensed under a Creative Commons License