TY - GEN
T1 - Tire chips reinforced foundation as liquefaction countermeasure of residential building
AU - Hazarika, Hemanta
AU - Khajeh Pasha, Siavash Manafi
AU - Yoshimoto, Norimasa
AU - Kinoshita, Tota
AU - Endo, Shigeki
AU - Karmokar, Ashoke Kumar
AU - Hitosugi, Takuto
N1 - Publisher Copyright:
Copyright © 11th Inter. Conf. on Geos. 2018, ICG 2018. All rights reserved.
PY - 2018
Y1 - 2018
N2 - To prevent vibration-induced and liquefaction-induced damage of residential buildings during earthquakes, a low cost technique has been developed and described here, which utilizes tire chips mixed gravel as horizontal reinforcing inclusion under the foundation of residential house. The horizontal reinforcing inclusion refers to a layer made of tire chips and gravel, which is placed horizontally beneath the foundation. Mixture of gravel and tire chips layers provides sufficient bearing capacity to the foundation. In this research, a series of small scale 1g model shaking table tests were performed to evaluate effectiveness of the technique. In addition, cyclic undrained triaxial test were performed to evaluate the liquefaction susceptibility of tire chips-gravel mixtures. Results of model tests indicate that when the thickness of reinforced layer is 10 cm (2 m in prototype) and gravel fraction (percentage of gravel in the mixture) is 50%, the technique yields the best performance. The element tests also indicated that gravel fraction plays an important role. 50%-60% is the best mixing percentage, in which the rise of excess pore water pressure could be significantly restrained without compromising the stiffness of the reinforcing inclusion.
AB - To prevent vibration-induced and liquefaction-induced damage of residential buildings during earthquakes, a low cost technique has been developed and described here, which utilizes tire chips mixed gravel as horizontal reinforcing inclusion under the foundation of residential house. The horizontal reinforcing inclusion refers to a layer made of tire chips and gravel, which is placed horizontally beneath the foundation. Mixture of gravel and tire chips layers provides sufficient bearing capacity to the foundation. In this research, a series of small scale 1g model shaking table tests were performed to evaluate effectiveness of the technique. In addition, cyclic undrained triaxial test were performed to evaluate the liquefaction susceptibility of tire chips-gravel mixtures. Results of model tests indicate that when the thickness of reinforced layer is 10 cm (2 m in prototype) and gravel fraction (percentage of gravel in the mixture) is 50%, the technique yields the best performance. The element tests also indicated that gravel fraction plays an important role. 50%-60% is the best mixing percentage, in which the rise of excess pore water pressure could be significantly restrained without compromising the stiffness of the reinforcing inclusion.
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M3 - Conference contribution
AN - SCOPUS:85099548462
T3 - 11th International Conference on Geosynthetics 2018, ICG 2018
SP - 1940
EP - 1947
BT - 11th International Conference on Geosynthetics 2018, ICG 2018
PB - Korean Geosynthetics Society
T2 - 11th International Conference on Geosynthetics 2018, ICG 2018
Y2 - 16 September 2018 through 21 September 2018
ER -