Geotechnical Engineering

(Jeff_L) #1
DHARM

SETTLEMENT ANALYSIS 421



  1. P.C. Rutledge: Summary and closing address, Proceedings, ASCE Settlement Conference, 1964.

  2. S.B. Sehgal: A Textbook of Soil Mechanics, Metropolitan Book House Pvt. Ltd., Delhi-6, 1969.

  3. A.W. Skempton: The bearing capacity of clays, Building Research Congress, UK, 1951.

  4. A.W. Skempton and L. Bjerrum: A contribution to Settlement Analysis of Foundations on Clay,
    Geotechnique, 1957.

  5. A.W. Skempton and R.H. Mac Donald: The allowable settlement of buildings, Proceedings, Insti-
    tution of Civil Engineers, London, 1956.

  6. G.N. Smith: Elements of Soil Mechanics for Civil and Mining Engineers, S.I. Edition, Crosby
    Lockwood Staples, London, 1974.

  7. G.F. Sowers: Discussion of Maximum Allowable Differential Settlements, Proceedings, 4th Int.
    Conf., SMFE, London, 1957.

  8. W. Steinbrenner: Tafeln zur Setzungsberechrung, Schriftenreihe der strasse, Strasse, 1934.

  9. D.W. Taylor: Fundamentals of Soil Mechanics, John Wiley & Sons, Inc., NY, USA, 1948.

  10. K. Terzaghi: The Science of Foundations, Transactions, ASCE, 1938.

  11. K. Terzaghi: Opening discussion on Settlement of Structures, Proceedings, first Int. Conf., SMFE,
    Cambridge, Mass., USA, 1936.

  12. K. Terzaghi: Settlement of Structures in Europe, Transactions, ASCE, 1932.

  13. K. Terzaghi: Theoretical Soil Mechanics, John Wiley & Sons, Inc., NY, USA, 1943.

  14. K. Terzaghi and R.B. Peck: Soil Mechanics in Engineering Practice, John Wiley & Sons, Inc., NY,
    U.S.A., 1948.

  15. S. Thornburm: Tentative correction chart for the standard Penetration Test in non-cohesive soils,
    Civil Engineering and Public Works Review, 1963.


QUESTIONS AND PROBLEMS

11.1 Write brief critical notes on ‘Settlement of foundation’.
(S.V.U.—B. Tech. (Part-time)—Sept., 1983)
11.2 Write brief critical notes on ‘Tolerable settlements for buildings and other structures’.
(S.V.U.—Four-year B. Tech.—Oct. & Dec., 1982)
11.3 Explain the recommended construction practices to avoid detrimental differential settlement in
large structures. (S.V.U.—B.E. (Part-time)—Dec., 1981)
11.4 Differentiate between ‘total settlement’ and ‘differential settlement’. What are the harmful effects
of differential settlement on structures? What are the possible remedial measures?
11.5 How does the construction period affect the time-rate of settlement of a structure? What is the
‘effective loading period’?
11.6 (a) What is ‘contact pressure’? How does it depend on the type of structure and type of soil?
(b) What is ‘active zone’ in soil? Explain it with reference to the pressure bulb concept.
11.7 A reinforced concrete foundation, 20 m × 40 m, transmits a uniform pressure of 240 kN/m^2 to a
soil mass, with E-value 40 kN/m^2. Determine the value of immediate settlement of the founda-
tion.
11.8 The plan of a proposed spoil heap is shown in Fig. 11.18. The heap will stand on a thick deposit
of soft clay with E-value 15 MN/m^2. The uniform pressure on the soil may be assumed as 150 kN/m^2.
Estimate the immediate settlement under the point marked X at the surface of the soil.
Free download pdf