The International Information Center for Geotechnical Engineers

Foundation Design

Prediction and back analysis of jack-up barge spud pile installation and extraction. Installation of offshore wind turbines - Noordoostpolder - The Netherlands
E.J. Sloof, . (2015).
Centrifuge modelling of the installation effects adjacent to an open-ended pile in a layered clay
M.G. Ottolini, . (2015).
A case study of large screw pile groups behaviour
P.O. Van-Impe,A. Manzotti. (2015).
Simple 3D modelling of soil-pile-structure interaction for a group of energetic piles
C. Borely, . (2015).
An Alternative Foundation Solution State Route 22, Section A02 – Lewistown Bypass
F.S. Tarquinio,D. Kartofilis,W. Kutschke. (2004).
A Creative Solution to Problems with Foundation Construction in Karst
D. Dotson,F. Tarquinio. (2003).
Dealing with vibration and noise from pile driving
W.A. Marr. (2001).
Lateral responses of piles due to excavation-induced soil movements
F.Y. Liang,M.S. Huang,C.R. Zhang. (2008).
GPS height application and gross error detection in foundation pit monitoring
T.D. Lu,S.F. Xu,D.M. Zhang. (2008).
Analysis of the factors influencing foundation pit deformations
X.L. Kong,J. Zhou,K.H. Xie,Y.Q. Li. (2008).
Settlement of single foundations due to diaphragm wall construction in soft clayey ground
Th. Triantafyllidis,R. Schäfer. (2005).
Three-dimensional analyses of piled raft foundations subjected to ground movements induced by tunnelling
K. Kawaguchi,P. Kitiyodom,T. Masumoto. (2005).
Numerical analysis of foundation for underground bridge project in Moscow
A.A. Starshinov,A.V. Skorikov,D.E. Razvodivsky,I.V. Kolybin. (2005).
Analyses of pile foundations subjected to ground movements induced by tunnelling
K. Kawaguchi,T. Matsumoto,P. Kittiyodom. (2005).
Dutch research on the impact of shield tunnelling on pile foundations
A.F. vanTol,E.A.H. Teunissen,F.J. Kaalberg. (2005).
The effects of tunnelling on piled structures on the CTRL
G. Zanardo,N.A. Moss,K.H. Bowers,S.W. Jacobsz. (2005).
Prediction of behaviour of piled building foundations due to tunnelling operations
H.G. Poulos, . (2002).
A collaborative research programme on subsidence damage to buildings: Prediction protection and repair
J.R. Standing,F.M. Jardine,L.F. Linney,R.J. Mair,J.B. Burland. (1996).
Ground movements due to tunnelling: Influence on pile foundations
J.S. vanderSchrier,J.T. vanderPoel,H.J.A.M. Hergarden. (1996).
Westminster Station - Deep foundations and top down construction in central London
C.S. Stones,J.D. Crawley. (1996).
A case study on piping during excavation for bridge abutments
T. Tanaka,E Toyokuni,E. Ozaki. (1995).
Application of The Tangent Modulus Method in Nonlinear Settlement Analysis of Sand Foundation
E.-Q. Wang,Y.-C. Zhang,Y.-D. Luo,G.-H. Yang. (2013).
Probalistic Assessment of the bearing Capacity of Shallow Strip Footings on Stiff-over-Soft Clay
M. Uzielli,M.J. Cassidy,Y. Tian. (2013).
Characterization of Model Uncertainty in Immediate Settlement Calculations for Spread Footings on Clays
A.W. Stuedlein,A.W. Strahler. (2013).
Predicting Settlements of Shallow Footings on Granular Soil Using Nonlinear Dynamic Soil Properties
Pelt Van,O. Kacar,K.H. Stokoe. (2013).
Interaction of Nearby Strip Footings Under Inclined Loading
P.K. Basudhar,P. Ghosh,L.S. Nainegali. (2013).
Settlements Under Footings on Rammed Aggregate Piers
O. Erol,A. Horoz,O. Kuruoglu. (2013).
Combined massive and plate foundations under machines with dynamic loadings
V. Bolshakov,Y. Kirichek. (2013).
Settlement velocity measured over ten years in major-scale shallow foundations on a preloaded 20-m thick silty alluvial layer
V.V. Cuéllar,F. Pardo-de-Santayana,F. Román,E. Dapena. (2013).
Estimating settlements of footings in sands – a probabilistic approach
R.C.H. Aoki,K.V. Ribeiro,F.C. Bicalho, Bungenstab. (2013).

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