The International Information Center for Geotechnical Engineers

Geotechnical Investigations & In-situ testing

NGM 2012
Danish Geotechnical Society (2012).
Cone Penetration Testing - A Synthesis of Highway Practice
TRANSPORTATION RESEARCH BOARD (2007).
Cone Penetration Testing State-of-Practice
Paul W. Mayne. (2007).
Testing of landslide triggering mechanism by pore pressure inflation with back pressure shear box
K. Bondars,P. Skels. (2015).
DEM modelling of the dynamic penetration process on Mars as a part of the NASA InSight Mission
N.I. Komle,G. Kargl,H.F. Schweiger,J. Poganski. (2015).
The use of light weight deflectometer for in situ evaluation of sand degree of compaction
A.F. Elhakim. (2014).
ESOPT Proceedings Vol.2.2: Papers
. (1974).
ESOPT Proceedings Vol.2.1: General Reports, Discussions and other activities
. (1974).
ESOPT Proceedings Vol.1: State-of-the-art Reports
. (1974).
International Symposium on Cone Penetration Testing_Vol. 3
. (1995).
International Symposium on Cone Penetration Testing_Vol. 2b
. (1995).
International Symposium on Cone Penetration Testing_Vol. 2a
. (1995).
International Symposium on Cone Penetration Testing_Vol. 1
. (1995).
Seismic cone downhole procedure for measuring shear wave velocity - a guideline prepared by ISSMGE TC10: Geophysical Testing in Geotechnical Engineering
Butcher A.P.,Campanella R.G.,Kaynia A.M.,Massarsch K.R.. (2005).
Application of Automated Laboratory Tests to Minnesota D.O.T. Highway Project Site Characterization
D. Dasenbrock,W.A. Marr,R. Hankour. ().
The use of artificial neural networks to predict ground movements caused by tunneling
M.M. Farias,A.P. Assis,I. Chissolucombe. (2008).
The effects of sample dimension and gradation on shear strength parameters of conditioned soils in EPBM
H. Katebi,H. Sabetamal,M. Ahmadi-adli,M. Hajialilue-Bonab. (2008).
Field tests and numerical investigation of splits anchors in structured clay
W. Tonosaki,Y. Fuseya,M. Kanaoka,H.Q. Nguyen,T. Tamano. (2005).
FE-analysis of five deep excavations in lacustrine clay and comparison with in-situ measurements
H. Breymann,H.F. Schweiger. (2005).
The North/Southline from site investigation to diaphragm wall installation
J.C.W.M. deWit,R. vanderSman,J. Herbschleb. (2005).
The response of full-scale piles to tunnelling
R.J. Mair,J.R. Standing,D. Selemetas. (2005).
Trial works on soil consolidation before tunnel construction
L.E. Pronina,V.M. Korolev,V.A. Ashikhmen,E.S. Argal. (2005).
Numerical analysis of experimental slurry trench in soft clay
S. Fukui,M. Kanaoka,N.H. Quan,T. Tamano. (2002).
The Rotterdam sheet pile wall field test: Test results
A.F. vanTol,D.A. Kort. (2002).
Full scale test on environmental impact of diaphragm wall trench installation In Amsterdam - the final results
H.J. Lengkeek,J.C.W.M. deWit. (2002).
Recent experiences of the measurement and prediction of tunnelling induced ground movements
J.P. Beveridge,C. Pound. (2002).
Geotechnical demands of soil investigations for tunneling in soft ground
U. Behr,J. Michael,H. Quick. (2002).
Evaluation of damage an masonry buildings due to tunnelling in clayey soils
A. Burghignoli,F. M.,S. Miliziano. (2002).
Full scale test on environmental impact of diaphragm wall trench excavation in Amsterdam
M. deKant,J.C.S. Roelands,J.C.W.M. deWit. (1999).
Seepage failure experiments on sand behind sheet piles
K. Hayashi,A. Verruijt,T. Tanaka. (1999).

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