TY - JOUR
T1 - Improvement of Bearing Capacity with Cement, Lime and Brick Waste in Soft Soils for Foundation Purposes
AU - Quispe, Edson Huaman
AU - Salvador, Cristhian Gustavo Rojas
AU - Aranda, Jhoser Juan Meza
AU - Montoya, Niel Iván Velasquez
AU - Morejón, Iralmy Yipsy Platero
N1 - Publisher Copyright:
© 2024 by authors, all rights reserved.
PY - 2024/1
Y1 - 2024/1
N2 - The project improves the bearing capacity with brick waste, cement grout and limewater in soft soils for foundation purposes in a 10,110.00 m2 area located in Jr. Humboldt in the district of Chilca due to the large presence of fine soils in that locality. The population builds informally on these poor soils without knowing the dangers that this can cause on their homes. In order to reach the objective of the investigation, the physical and mechanical properties of the soil of the district of Chilca were determined by means of tests of granulometry, specific weight, consistency limits and direct shear, then the admissible bearing capacity was found through Terzaghi's method. It was found that the soil had more than 50% of fines, being a clayey and silty soil with an average low bearing capacity of 0.75 kg/cm2. When the soil was treated with 15% of brick waste, the bearing capacity improved with a value of 0.82 kg/cm2, with 15% of limewater a value of 0.85 kg/cm2 was obtained and finally with 15% of cement grout a value of 0.90 kg/cm2 was obtained, gaining up to 23.29% compared to the standard sample. Finally, 15% of cement grout was the recommended treatment to be used because that percentage was the best option to obtain the highest bearing capacity compared to brick waste and limewater, but to achieve better results, it is recommended to use cement grout from 15% onwards.
AB - The project improves the bearing capacity with brick waste, cement grout and limewater in soft soils for foundation purposes in a 10,110.00 m2 area located in Jr. Humboldt in the district of Chilca due to the large presence of fine soils in that locality. The population builds informally on these poor soils without knowing the dangers that this can cause on their homes. In order to reach the objective of the investigation, the physical and mechanical properties of the soil of the district of Chilca were determined by means of tests of granulometry, specific weight, consistency limits and direct shear, then the admissible bearing capacity was found through Terzaghi's method. It was found that the soil had more than 50% of fines, being a clayey and silty soil with an average low bearing capacity of 0.75 kg/cm2. When the soil was treated with 15% of brick waste, the bearing capacity improved with a value of 0.82 kg/cm2, with 15% of limewater a value of 0.85 kg/cm2 was obtained and finally with 15% of cement grout a value of 0.90 kg/cm2 was obtained, gaining up to 23.29% compared to the standard sample. Finally, 15% of cement grout was the recommended treatment to be used because that percentage was the best option to obtain the highest bearing capacity compared to brick waste and limewater, but to achieve better results, it is recommended to use cement grout from 15% onwards.
KW - Bearing Capacity
KW - Brick Waste
KW - Cement Grout
KW - Limewater
KW - Soft Soils
UR - http://www.scopus.com/inward/record.url?scp=85178409882&partnerID=8YFLogxK
U2 - 10.13189/cea.2024.120108
DO - 10.13189/cea.2024.120108
M3 - Original Article
AN - SCOPUS:85178409882
SN - 2332-1091
VL - 12
SP - 97
EP - 108
JO - Civil Engineering and Architecture
JF - Civil Engineering and Architecture
IS - 1
ER -