DHARM
420 GEOTECHNICAL ENGINEERING
- Corrections to the computed settlement values will be necessary for the construction or loading
period and for the occurrence of lateral yielding or strain; the time for assessing the time-rate of
settlement is customarily reckoned from the middle of the loading period. - Rigidity of the structure and horizontal drainage are further factors affecting the settlement.
- The accuracy of computed settlements is dependent upon the degree to which the inherent as-
sumptions in the analysis are valid in a given field situation. Certain authorities specify permis-
sible values for different kinds of structures and foundations, both in respect of total settlement
and of differential settlement. - Certain remedial measures such as preconsolidation of the site and soil stabilization are possi-
ble for guarding against the occurrence of harmful settlements. - Settlement records are recommended to be maintained after the completion of a structure as
these serve as a useful indication with regard to the accuracy of the method of analysis. - Contact pressure is the actual pressure transmitted from the foundation to the soil; it is uniform
only for a perfectly flexible structure irrespective of the type of soil. The contact pressure distri-
bution for a rigid structure is dependent on the nature of the soil. - The Terzaghi active zone in a stressed soil mass is the zone within the 0.20q-isobar or pressure
bulb; 80% of the settlement occurs due to the stress increase in this zone; the depth to which this
isobar extends (≈ 1.5B) gives an idea of the depth to which exploratory borings should be made.
REFERENCES
- Alam Singh and B.C. Punmia: Soil Mechanics and Foundations, Standard Book House, Nai Sarak,
Delhi-6, 1971. - M. Bozozuk: Soil shrinkage damages shallow foundations at Ottawa, Eng. Journal, Canadian
Society of Civil Engineers, 1962. - P.L. Capper, W.F. Cassie, and J.D. Geddes: Problems in Engineering Soils, S.I. Edition, E & F.N.
Spon Ltd., London, 1971. - E. De Beer and A. Martens: Method of computation of an upper limit for the influence of the
heterogeneity of sand layers in the settlement of bridges, Proceedings, 4th International Confer-
ence SMFE, London, 1957. - E.N. Fox: The mean elastic settlement of a uniformly loaded area at a depth below the ground
surface, Proceedings, 2nd International Conference, SMFE, Rotterdam, 1948. - G.G. Gilboy: Soil Mechanics Research, Transactions, ASCE, 1933.
- J.P. Gould: The effect of radial flow in settlement analysis, S.M. Thesis, Massachusetts Institute
of Technology, Cambridge, Mass., U.S.A., 1946. (Unpublished). - IS: 1904-1978: Code of Practice for Structural Safety of Buildings: Shallow Foundations, Second
revision, ISI, New Delhi, 1978. - A.R. Jumikis: Soil Mechanics, D. Van Nostrand Co., Princeton, NJ, U.S.A., 1962.
- A.C. Meigh and I.K. Nixon: Comparison of in-situ tests for granular soils, Proceedings, 5th Inter-
national Conference SMFE, Paris, 1961. - G.G. Meyerhof: Penetration Tests and bearing capacity of Cohesionless soils, Proceedings, ASCE,
- D.E. Polshin and R.A. Tokar; Maximum Allowable Differential Settlement of Structures, Proceed-
ings, 4th International Conference, SMFE, London, 1957.