Civil Engineering Reference
In-Depth Information
Meyerhof, G.G. (1995) Behaviour of pile foundations under special loading conditions:
R.M. Hardy keynote address,
Canadian Geotechnical Journal
, 32(2): 204-222.
Meyerhof, G.G. and G. Ranjan (1972) The bearing capacity of rigid piles under inclined loads in
sand: I - Vertical piles,
Can. Geotech
.
J
. 9(4): 430-446 (see also Can. Geotech. J. 10(1):71-85
for Part II).
Middendorp, P. and M.W. Bielefeld (1995) Statnamic and the influence of stress-wave
phenomena.
Proc. 1st Int. Statnamic Seminar
, Vancouver, Canada, pp. 1-30.
Middendorp, P. and A.F. van Weele (1986) Application of characteristic stress wave method
in offshore practice,
Proc. 3rd Int. Conf. on Num. Methods in Offshore Piling
, Nantes,
Supplement, 6-18.
Milligan, G.W.E. (1983) Soil deformations near anchored sheet pile walls,
Géotechnique
, 33(1):
41-55.
Murff, J.D. (1980) Pile capacity in a softening soil,
Int. J. Num. and Anal. Methods in
Geomechanics
, 4: 185-189.
Murff, J.D. (1987) Pile capacity in calcareous sands: State of the Art,
ASCE J. Geot. Eng. Div
.,
113(GT5): 490-507.
Murff, J.D. and J.M. Hamilton (1993) P-Ultimate for undrained analysis of laterally loaded
piles,
ASCE Journal of Geotechnical Engineering
, 119(1): 91-107.
Mylonakis, G.
(2001) Winkler modulus for axially loaded piles,
Géotechnique
, 51(5):
455-461.
Mylonakis, G. and G. Gazetas (1998) Settlement and additional internal forces of grouped piles
in layered soil,
Géotechnique
, 48(1): 55-72.
Neely, W.J. (1988) Bearing capacity of expanded-base piles in sand,
ASCE J. Geotech. Eng.
Div
., 116(GT1): 73-87.
Nixon, P.J., Longworth, T.I. andMatthews, J.D. (2003) NewUK guidance on the use of concrete
in aggressive ground,
Cement and Concrete Composites
, 25(8): 1177-1184.
Nordlund, R.L. (1963) Bearing capacity of piles in cohesionless soils,
ASCE J. Soil Mech and
Found Eng. Div
., 89(SM3): 1-35.
Ohsaki, Y. and R. Iwasaki (1973) On dynamic shear moduli and Poissons ratio of soil deposits,
Soils and Foundations
, 13(4): 61-73.
Omar, R.M. (1978) Discussion of Burgess IW.,
Géotechnique
, 28(2): 234-239.
O'Neill, M.W., O.I. Ghazzaly and H.B. Ha (1977) Analysis of three dimensional pile groups
with non-linear soil response and pile-soil-pile interaction.
Proc. 9th Offshore Tech. Conf
.,
Vol. 2, pp. 245-256.
O'Neill, M.W., R.A. Hawkins and L.J. Mahar (1982) Load transfer mechanisms in piles and
pile groups,
ASCE J. Geotech. Eng. Div
., 108(GT12): 1605-1623.
O'Riordan, N.J. (1982) The mobilisation of shaft adhesion down a bored, cast-in-situ pile in
the Woolwich and Reading beds,
Ground Engineering
, 15(3): 17-26.
Osterberg, J. (1989) New device for load testing driven piles and drilled shafts separates
friction and end-bearing,
Proc. Int. Conf. On Piling an Deep Found
., London, Vol. 1,
pp. 421-427.
Packshaw, S. (1951) Pile driving in difficult conditions. ICE Introductory Note.
Padfield, C.J. and M.J. Sharrock (1983) Settlement of structures on clay soils, CIRIA Special
Publication 27, London: CIRIA.
Pappin J.W., B. Simpson, P.J. Felton and Raison, C. (1986) Numerical analysis of flexible
retaining walls. Symposium on Computer Applications in Geotechnical Engineering. The
Midland Geotechnical Society, UK.
Parry, R.H.G. (1972) Some properties of heavily overconsolidated lower Oxford clay at a site
near Bedford,
Géotechnique
, 22(3): 485-507.
Parry, R.H.G. (1980) A study of pile capacity for the Heather platform,
Ground Engineering
,
13(2): 26-28, 31, 37.
