RELATION BETWEEN STANDERD PENETRATION TEST AND SKIN RESISTANCE OF DRIVEN CONCRETE PILE IN OVER CONSOLIDATED CLAY SOIL
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Abstract
In this research the relation between skin resistances and standard penetration test of over consolidated
clay soils has been studied. The research includes doing boreholes at Babil governorate in Iraq to get
undisturbed samples and standard penetration test. Determination skin friction from direct shear test between
smooth concrete and soil was explored in laboratory for design purposes and correlated with standard
penetration test values. In many foundation design problems, the shear strength between soil and
foundation materials were estimated or correlated without any direct methods for measurement.
Twelve strain controlled direct shear tests were performed simulate the shear strength interaction
between smooth concrete and undisturbed over consolidated silty clay, determine the soil – foundation
interface friction, considering the following variables :(1) over consolidation ratio OCR between 1.4 to
2.4 (2) Concrete, smooth surface, (3) Undisturbed samples, (4) Variation of the normal load between the
friction surface. The results showed that both cohesion and internal friction should be considered in
evaluating skin friction. The results of cohesion and angle of internal friction were correlate with the
standard penetration test SPT –N . Interface friction angle was 14.5° , while the adhesion was 15.5 kPa.
The ultimate shear strength was mobilized through 10%- 16% strain in the direction of shear surface. .
A fairly good correlation between the N70-value and the interface friction parameters were established
for determination unit skin friction for driven piles. Finally, based on the test results, a simple relation was
proposed to relate the N70 value and interface friction of silty clay soils for a range of N70 between 12 and 20.
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References
• Acar, Y. B., Durgunoglu, H. T. and Tumay, M. T. (1982) "Interface Properties of Sand." Journal of Geotechnical Engineering, ASCE, Vol. 108, No. 4, 648-654.
• Ahmad, A.A. and JahanGer, Z. K. (2008)" Skin friction between Undisturbed Over consolidated silty Clay Soils and
Concrete," University of Baghdad, Journal of engineering, No.4, Vol.14, pp.3068-3076.
• American Society for Testing and Materials, ASTM. (1988). Annual Book of Standards, sec. 4, Vol. 04.08, West
Conshohocken, Pa.
• Ampera, B. and Aydogmus, T. (2005) "Skin Friction between Peat and Silt Soils with Construction Materials." Ejge Paper,
• Bowles, J, E. (1997)."Foundation Analysis and Design." 5th edition, McGraw-Hill, Inc.
• Budhu, M. (2008)."Soil Mechanics and Foundations." 3rd edition, John Wiley and Sons, Inc, New York.
• Chandler, R. J. and J. P. Martins. (1982) "An experimental study of skin friction around piles in clay" Géotechnique, 32,
No. 2, pp. 119-132
• Das, B. M. (2007)."Principles of Geotechnical Engineering." 5th edition, Brooks/Cole, pp315-322.
• Lambe, T.W. and Whitman, R.V. (2000) "Soil Mechanics." John Wiley and Sons.
• Meyerhof, G. G. (1976), "Bearing Capacity and Settlement of Pile Foundations," JGED, ASCE, vol.102, GT3, March, pp. 195-228.
• Potyondy, J. G. (1961) "Skin friction between various soils and construction materials." Géotechnique, , 11, No. 4, pp.
-353
• Winterkorn,H.F.,Fang,H.F.(1975)"Foundation engineering handbook" Litton educational publishing ,Inc.