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EARTHQUAKE SOIL STRUCTURE INTERACTION: EFFECT OF EARTHQUAKE INDUCED LATERAL SOIL MOVEMENT ON LATERAL PILE RESISTANCE - Softcover
Inhaltsangabe
The performance of piles in liquefying ground under earthquake loading is a complex problem due to the effects of a progressive build-up of pore water pressures in the saturated soils. The loss of soil strength and stiffness due to liquefaction may develop large bending moments and shear forces in piles, possibly leading to pile damage. The significance of liquefaction-related damage to pile foundations has been clearly demonstrated by the major earthquakes that have occurred during past years. The present investigation is to find out the effect of earthquake induced lateral soil movement on lateral pile capacity. Modelling and the analyses are done using PLAXIS 2D. A plane strain alaysis is carried out. Soil layers are modelled as 15 noded triangular elements and pile is modelled as 5 noded beam elements. The model used for the analysis is validated by comparing the results given by Abdoun, and Dobry (2002). In this, 1995 Kobe earthquake data (Japan) is used. Parametric study has been done on the same model by varying slope in the soil layers and L/D ratio of the pile.
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Reseña del editor
The performance of piles in liquefying ground under earthquake loading is a complex problem due to the effects of a progressive build-up of pore water pressures in the saturated soils. The loss of soil strength and stiffness due to liquefaction may develop large bending moments and shear forces in piles, possibly leading to pile damage. The significance of liquefaction-related damage to pile foundations has been clearly demonstrated by the major earthquakes that have occurred during past years. The present investigation is to find out the effect of earthquake induced lateral soil movement on lateral pile capacity. Modelling and the analyses are done using PLAXIS 2D. A plane strain alaysis is carried out. Soil layers are modelled as 15 noded triangular elements and pile is modelled as 5 noded beam elements. The model used for the analysis is validated by comparing the results given by Abdoun, and Dobry (2002). In this, 1995 Kobe earthquake data (Japan) is used. Parametric study has been done on the same model by varying slope in the soil layers and L/D ratio of the pile.
Biografía del autor
Dr.K.MUTHUKKUMARAN,Assistant Professor of Civil Engineering at National Institute of Technology,Tiruchirappalli. Published more than 50 papers in international and notational journals and conferences. Research area includes soil-structure interaction, pile foundation,slope stability, ground improvement and field instrumentation.
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EARTHQUAKE SOIL STRUCTURE INTERACTION: EFFECT OF EARTHQUAKE INDUCED LATERAL SOIL MOVEMENT ON LATERAL PILE RESISTANCE
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EARTHQUAKE SOIL STRUCTURE INTERACTION : EFFECT OF EARTHQUAKE INDUCED LATERAL SOIL MOVEMENT ON LATERAL PILE RESISTANCE
Verlag:
VDM Verlag Dr. Müller e.K., 2010
ISBN 10: 3639216121
ISBN 13: 9783639216127
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Softcover
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Zustand: Sehr gut. Zustand: Sehr gut | Sprache: Englisch | Produktart: Bücher. Artikel-Nr. 10023795/2
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