Rene De Borst and Arend E. Groen, (2000). Computational Strategies
for Standard Soil Plasticity Models. Modeling in Geomechanics. Delft
University of Technology, The Netherlands.
A.E. Groen, (1997). Three-Dimensional Elasto-Plastic Analysis of Soils.
PhD thesis, Delft university, Department of Civil Engineering and
Geosciences.
Phillipe Mestat, (2001). MOMIS: A database for numerical modeling of
embankments on soft soils and the comparison between
computational results and in-situ measurements. Bulletin Des
Laboratoires Des Ponts Et Chaussees.
Susan E. Minkoff, Nicholas M. Kridler, (2005). A comparison of adaptive
time stepping methods for coupled flow and deformation modelling.
Applied mathematical modelling, Elsevier Inc.
Perrone, Vincent J., (1998). One Dimensional Computer Analysis of
Simultaneous Consolidation and Creep of Clay. Virginia Polytechnic
Institute and State University.
Lee Yew Choong Patrick, (2003). Numerical modelling of constant rate
of strain consolidation tests. M.Eng. Thesis, Massachusetts Institute of
Technology, Dept. of Civil and Sanitary Engineering.
C. D. Foster, R. A. Regueiro, A. F. Fossum, R. I. Borja, (2005). Implicit
numerical integration of a three-invariant, isotropic/kinematic
hardening cap plasticity model for geomaterials. Computer Mtehods in
applied mechanics and engineering 194, 5109-5138, Elsevier B.V.
M.D. Bolton, R.J. English, C.C. Hird, A.N. Schofield. Modelling.
U.M.I.S.T. University of Cambridge Engineering Department.
M.D. Bolton, M.W. Gui. Modelling of Sand over a wide stress range
using Flac. University of Cambridge Engineering Department.
A. El. Hamalawi & M. D. Bolton, (2002). A-posteriori error estimation in
axisymmetric geotechnical analyses. Computers and Geotechnics 29,
587-607, Elsevier Science Ltd.
Scott Ronald F. (1953). Numerical Analysis of consolidation problems.
Ms Thesis Massachusetts Institute of Technology, Dept. of Civil and
Sanitary Engineering.
Wotring, D., 2004. VISUALIZATION IN GEOMECHANICS WITH AN
APPLICATION TO DEEP EXCAVATIONS, Ph.D. Thesis, UIUC.
Hashash, Y.M., Q. Fu, and J. Butkovich, 2004. Generalized Strain
Probing of Constitutive Models. International Journal of Numerical and
Analytical Methods in Geomechanics, 28: p. 1503-1519. John Wiley &
Sons Ltd.
M.B. Jaksa, P.I. Brooker and W.S. Kaggwa, (1997). Modelling the
spatial variability of the undrained shear strength of clay using
geostatistics. E.Y. Baafi and N.A. Schofield, Geostatistics Wollongong
'96, Volume 2, 1284-1295. Kluwer Publishers, Netherlands.
Petr Krysl, (2005). A Pragmatic Introduction to the Finite Element
Method for Thermal and Stress Analysis. With the Matlab toolbox
SOFEA. Pressure Cooker Press.
Jose E. Andrade, (2006). Meso-Scale Finite Element Simulation of
Deformation banding in Fluid-Saturated sands. PhD Thesis,
Department of Civil and Environmental Engineering, Stanford University.
Jose E. Andrade, Ronaldo I. Borja, (2007). Modeling deformation
banding in dense and loose fluid-saturated sands. Finite Elements in
Analysis and Design.
Victor E. Saouma. Draft - Lecture Notes in: Finite Element II - Solid
Mechanics. Department of Civil Environmental and Architectural
Engineering, University of Colorado, Boulder.
Susan E. Minkoff, (2002). Spatial Parallelism of a 3D Finite Difference
Velocity-Stress Elastic wave propagation code. SIAM Journal Scientific
Computing, vol. 24. Society for Industrial and Applied Mathematics.
Susan E. Minkoff, C. Mike Stone, Steve Bryant, Malgorzata Peszynska,
Mary F. Wheeler, (2003). Coupled fluid flow and geomechanical
deformation modelling. Journal of Petroleum Science and Engineering
38, 37-56, Elsevier Science B.V.
Muir Wood, D. Mackenzie, N.L. and Chan, A.H.C. (1992). Selection of
parameters for numerical predictions. Predictive soil mechanics,
proceedings of the wroth memorial symposium St. Catherine's College,
Oxford. Thomas Telford Services. Sage Crisp Publications Directory.
Hashash, Y.M.A., J.I.-C. Yao, and D. Wotring, 2003. Glyph and
hypersteamline representation of stress and strain tensors and
material constitutive response. International Journal for Numerical and
Analytical Methods in Geomechanics, 27: pp.603-626. John Wiley &
Sons Ltd.
Rick H. Dean, Xiuli Gai, Charles M. Stone, Susan E. Minkoff, (2003). A
comparison of techniques for coupling porous flow and Geomechanics.
SPE 79709, Society of Petroleum Engineers Inc.
Hashash, Y.M.A., D. Wotring, J.I.-C. Yao, J.-S. Lee, and Q. Fu, 2002.
Visual Framework for Development and use of Constitutive Models.
International Journal for Numerical and Analytical Methods in
Geomechanics, 26: 1493-1513. John Wiley & Sons Ltd.
J.S. Sharma and M.D. Bolton, (1996). Finite Element Analysis of
Centrifuge Tests on Reinforced Embankments on Soft Clay. Computers
and Geotechnics, Vol.19, No.1, pp. 1-22, Elsevier Science Limited, UK.
M.D. Bolton, A.M. Britto, W. Powrie, T.P. White, (1989). Finite Element
Analysis of a Centrifuge Model of a retaining wall embedded in a
heavily overconsolidated clay. Computers and Geotechniques 7, 289-
318, Elsevier Science Publishers Ltd. UK.
A. El-Hamalawi, M.D. Bolton, A.M. Britto, (1996). A Cubic Strain
quadrilateral Finite Element. International Journal for Numerical and
Analytical Methods in Geomechanics, Vol. 20, 295-302, John Wiley &
Sons Ltd.
H.S. Yu, G.T. Houlsby and H.J Burd, (1993). A Novel Isoparametric Finite
Element displacement formulation for Axisymmetric Analysis of nearly
incompressible materials. International Journal for Numerical Methods
in Engineering, Vol.36, 2453-2472, John Wiley & Sons Ltd.
M.D Bolton, H.W. Sun, A.M. Britto, (1993). Finite Element Analysis of
Bridge Abutments on Firm Clay. Computers and Geotechnics 15, 221-
245, Crown Copyright, UK.
A. El-Hamalawi, M.D. Bolton, (1999). An a posteriori error estimator for
plane-strain geotechnical analyses. Finite Elements in Analysis and
Design 33, 335-354. Elsevier Science B.V.
Richard A. Regueiro, Ronaldo I. Borja, (1999). A finite element model of
localized deformation in frictional materials taking a strong
discontinuity approach. Finite Elements in Analysis and Design 33, 283-
315. Elsevier Science B.V.
Ronaldo I. Borja, Richard A. Regueiro, Timothy Y. Lai, (2000). FE
Modeling of Strain localization in soft rock. Journal of Geotechnical and
Geoenvironmental Engineering.
Ronaldo I. Borja, (2000). A finite element model for strain localization
analysis of strongly discontinuous fields based on standard Galerkin
approximation. Computer Methods in applied Mechanics Engineering
190, 1529-1549. Elsevier Science S.A.
Richard A. Regueiro, Ronaldo I. Borja, (2001). Plane strain finite
element analysis of pressure sensitive plasticity with strong
discontinuity. International Journal of Solids and Structures 38, 3647-
3672. Elsevier Science Ltd.
Akers Stephen Andrew, (2001). Two-dimensional finite element
analysis of Porous Geomaterials at Multikilobar Stress Levels. PhD
Thesis, Department of Civil Engineering, Virgina Polytechnic Institute
and State University, Blacksburg, Virginia.
Philippe Mestat and Jean-Pierre Berthelon, (2001). Finite element
modelling of shallow foundation tests at the Labenne site. Laboratoire
Central des Ponts et Chaussees. BLPC/1234.
Bentler J. David, (1998). Finite element analysis of Deep Excavations.
PhD Thesis, Department of Civil Engineering, Virgina Polytechnic
Institute and State University, Blacksburg, Virginia.
Stuart Hardy, (2003). The implementation and application of dynamic
finite element analysis to geotechnical problems. PhD Thesis, Imperial
College of Science, Technology and Medicine, London.
Murray Fredlund, (2004). Finite element Stochastic Analysis. 57th
Canadian Geotechnical Conference and 5th Joint IAH-CGS Conference,
Quebec, QC, Canada.
R.W. Bell, G.T. Houlsby and H.J. Burd, (1993). Suitability of three-
dimensional finite elements for modelling material incompressibility
using exact integration. Communications in numerical methods in
Engineering, Vol. 9, 313-329, John Wiley & Sons Ltd.
H.J. Burd and G.T. Houlsby, (1990). Finite Element analysis of two
cylindrical expansion problems involving nearly incompressible material
behaviour. International Journal for numerical and analytical methods
in Geomechanics Vol. 14, 351-366. John Wiley & Sons Ltd.
G.T. Houlsby, G. Liu and C.E. Augarde, (2000). A trying scheme for
imposing displacement constraints in finite element analysis.
Communications in Numerical Methods in Engineering. 16:721-732.
John Wiley & Sons Ltd.
H.S. Yu and G.T. Houlsby, (1990). A new finite element formulation for
One-dimensional analysis of elastic-plastic materials. Computers and
Geotechnics 9, 241-256. Elsevier Science Publishers Ltd. UK.
H.J. Burd and G.T. Houlsby, (1986). A large strain finite element
formulation for one-dimensional membrane elements. Computers and
Geotechnics 2, 3-22. Elsevier Applied Science Publishers Ltd. UK.
Ronaldo I. Borja, (2002). Finite element simulation of strain localization
with large deformation: capturing strong discontinuity using a Petrov-
Galerkin multiscale formulation. Computer Methods in applied
mechanics and engineering 191, 2949-2978. Elsevier Science B.V.
H.J. Burd, H.S. Yu, G.T. Houlsby, (1989). Finite element implementation
of Frictional Plasticity Models with Dilation. Proceedings of the
International Conference on Constitutive Laws for Engineering
Materials, Chongqing, China.
Powrie W., Li E.S.F., (1991). Finite Element analyses of an In-Situ wall
propped at formation level. Geotechnique 41, No.4, 499-514. SAGE
Crisp publications directory. Thomas Telford Services Ltd. London.
M.J. Gunn, A. Satkunananthan, C.R.I. Clayton, (1992). Finite Element
Modelling of Installation Effects. ICE Conference on Retaining
structures, Robinson College, Cambridge, pp. 46-55. SAGE Crisp
publications directory. Thomas Telford Services Ltd. London.
Zhang Ji-fa, Zhang Wen-pu, Zheng Yao, (2005). A meshfree method
and its applications to elasto-plastic problems. Journal of Zhejiang
University Science 6A(2): 148-154.
Sotirios Vardakos, (2003). Distinct Element Modeling of the Shimizu
Tunnel No.3 in Japan. MSC Thesis, Department of Geotechnical
Engineering, Virginia Polytechnic Institute and State University.
D. Robertson, M.D. Bolton, (2001). DEM simulations of crushable grains
and soils. 4th International Conference on Micromechanics of Granular
Media (Powders & Grains 2001), Sendai, Japan.
Erfan G. Nezami, Youssef Hashash, Jamshid Ghaboussi, Dawei Zhao,
(2003). A Fast contact detection algorithm for Discrete Element
Method. 16th ASCE Engineering Mechanics Conference, July 16-18
2003, University of Washington, Seattle.
Jacek Tejchman and Jan Kozicki, (2003). Discrete methods to describe
the behavior of quasi-brittle and granular materials. 16th ASCE
Engineering Mechanics Conference, July 16-18 2003, University of
Washington, Seattle.
Stefan van Baars, (1996). Discrete element analysis of granular
materials. PhD Thesis, Delft university, Department of Civil Engineering
and Geosciences.
Lincy Pyl, Didier Clouteau and Geert Degrande, (2003). The soil
impedance of embedded structures in the higher frequency range,
computed with the boundary element method. 16th ASCE Engineering
Mechanics Conference July 16-18, 2003, University of Washington,
Seattle.
Dobromil Pryl, Martin Schanz, (2003). Wave Propagation in
Incompressible Modelled Porous Continua with Boundary Elements.
16th ASCE Engineering Mechanics Conference July 16-18, 2003,
University of Washington, Seattle.
Yu-Ning Ge, Stein Sture, (2002). A cyclic plasticity model based on fuzzy
set theory. 15th ASCE Engineering Mechanics Division Conference,
Columbia University in the City of New York, June 2-5th.
John D. McKinley, (1996). Extracting pattern from scattered data -
applicability of artificial neural networks to the interpretation of bearing
capacity data. Report No: CUED / D - SOILS / TR.299. Cambridge
University Engineering Department.
Ren Xiao-qiang, Chen Wu-jun, Dong Shi-lin, Wang Feng, (2006). Neural
network method for solving elastoplastic finite element problems.
Journal of Zhejiang University SCIENCE A ISSN 1009-3095, 2006 7(3):
378-382.
Anjos G.J.M., Cunha R.P., Kuklik P., Miroslav B., (2006). Numerical
evaluation of bored piles in tropical soils by means of the geo-technical
engineering “GEO4” Fine Software. III European Conference on
Computational Mechanics Solids, Structures and Coupled Problems in
Engineering C.A. Mota Soares et.al. (eds.) Lisbon, Portugal, 5–8 June
2006.
Ignacio Zuloaga Fábrega, (2005). Casos prácticos de aplicación del
método de los elementos finitos en la reducción del riesgo geotécnico.
2as Jornadas Hispano-Lusas de Geotecnia, Lisbon, 10/2005.
J. Pruška. Comparison of geotechnic softwares - Geo FEM, Plaxis, Z-
Soil. Proceedings of the XIII ECSMGE, Vaníček et al. (eds). ČGtS,
Prague, ISBN 80-86769-01-1, (Vol. 2).
Anthony William Minns, (1998). Artificial Neural Networks as
Subsymbolic Process Descriptions. PhD Thesis, Delft University of
Technology. A.A. Balkema / Rotterdam / Brookfield.
Mario Alvarez Grima, (2000). Neuro-Fuzzy Modeling in Engineering
Geology: Applications to mechanical rock excavation, rock strength
estimation, and geological mapping. PhD Thesis, Delft university,
Department of Civil Engineering and Geosciences.
M.A. Shahin, M.B. Jaksa, H.R. Maier, (2005). Neural Network Based
Stochastic Design Charts for Settlement Prediction. Canadian
Geotechnical Journal 42: 110-120, NRC Canada.
Murray Fredlund, Jason Stianson, Maritz Rykaart, (2003). Automatic
Mesh Refinement in the SVFlux and ChemFlux Software Packages.
UNSAT Asia 2003.
R.S. Mansell, Liwang Ma, L.R. Ahuja, S.A. Bloom, (2002). Adaptive Grid
Refinement in Numerical Models for Water Flow and Chemical Transport
in Soil: A Review. Vadose Zone Journal 1: 222-238.
Murray Fredlund, Jason Stianson, Maritz Rykaart, (2002). Applications
of Automatic Mesh Refinement in the SVFLUX and CHEMFLUX Software
Packages. 55th Canadian Geotechnical Conference and 3rd Joint IAH-
CNC/CGS Conference, October 20-23, 2002, Niagara Falls, ON, Canada.
G.W. Wilson, M.D. Fredlund, (2000). The Application of Knowledge-
Based Surface Flux Boundary Modelling. Unsaturated Soils for Asia,
Rahardjo, Toll & Leong (eds), Balkema, Rotterdam.
Sylvia Moenickes, (2004). Grid Generation for Simulation of Flow and
Transport Processes in Fractured-Porous Media. PhD Thesis, Institut
fur Stromungsmechanik und Elektronishes Rechnen im Bauwesen der
Universitat Hannover.
Carsten Thorenz, (2001). Model Adaptive Simulation of Multiphase and
Density Driven in Fractured and Porous Media. PhD Thesis, Institut fur
Stromungsmechanik und Elektronishes Rechnen im Bauwesen der
Universitat Hannover.
C. Sagaseta, G.T. Houlsby, (1988). Elastic-plastic incompressible flow
around an infinite cone. Penetration Testing 1988, ISOPT-1, De Ruiter
(ed.), Balkema Rotterdam.
Ayman A. Abed, (2008). Numerical Modeling of Expansive Soil Behavior.
PhD Thesis, Institut für Geotechnik, Universität Stuttgart, Germany.
G. Manivannan, (2005). Viscoplastic Modelling of Embankments on Soft
Soils. PhD Thesis, School of Aerospace Civil and Mechanical
Engineering, University College, The UNSW at ADFA.
O. Kusakabe, Y. Maeda, M. Ohuchi, T. Hagiwara, (1992). Attempts at
Centrifugal and Numerical Simulation of a Large Scale In-Situ Loading
on a Granular Material. Predictive Soil Mechanics, Proceedings of the
Wroth Memorial Symposium, St. Catherine's College, Oxford, pp. 404-
420. Sage Crisp Publications Directory. Thomas Telford Services Ltd.
A. Al-Tabbaa and D. Muir Wood (1991). Horizontal Drainage during
Consolidation: Insights gained from Analysis of a Simple Problem.
Geotechnique Vol. 41, No. 4, pp. 571-585. Sage Crisp Publications
Directory. Thomas Telford Services Ltd.
M. Budhu, A.M. Britto, (1987). Numerical Analysis of Soils in simple
Shear Devices. Soils and Foundations Vol. 27, No. 2, pp. 31-41. Sage
Crisp Publications Directory. Japanese Society of Soil Mechanics.
Dongyi Yue, Hoe I. Ling, Victor N. Kaliakin, (2003). Simulating Time-
Dependent Behavior of Clay using an Anisotropic Elastoplastic
Bounding Surface Model. ASCE 16th Engineering Mechanics
Conference, Seattle, WA.
R.J. Hickman, M.S. Gutierrez, (2003). Influence of Implicit Integration
Schemes on Prediction of Shear Band Formation. 16th ASCE
Engineering Mechanics Conference, July 16-18, 2003, University of
Washington, Seattle.
V.V. Galishnikova, R.S. Harichandran, (2003). Analytical Solution of
Boundary Value Problems in Mechanics using a Decomposition Method.
16th ASCE Engineering Mechanics Conference, July 16-18, 2003,
University of Washington, Seattle.
R.A. Regueiro, M.T. Manzari, (2003). Post-Failure Analysis of
Geomaterials with Strong Discontinuities. 16th ASCE Engineering
Mechanics Conference, July 16-18, 2003, University of Washington,
Seattle.
C. Choi, P. Arduino, (2003). Implicit Numerical Integration of
Constitutive Relations Using Object-Oriented-Programming. 16th ASCE
Engineering Mechanics Conference, July 16-18, 2003, University of
Washington, Seattle.
V.P. Panoskaltsis, D. Panneerselvam, (2003). Viscoelastic
Regularization of Solutions in Strain Softening Materials. 16th ASCE
Engineering Mechanics Conference, July 16-18, 2003, University of
Washington, Seattle.
for Standard Soil Plasticity Models. Modeling in Geomechanics. Delft
University of Technology, The Netherlands.
A.E. Groen, (1997). Three-Dimensional Elasto-Plastic Analysis of Soils.
PhD thesis, Delft university, Department of Civil Engineering and
Geosciences.
Phillipe Mestat, (2001). MOMIS: A database for numerical modeling of
embankments on soft soils and the comparison between
computational results and in-situ measurements. Bulletin Des
Laboratoires Des Ponts Et Chaussees.
Susan E. Minkoff, Nicholas M. Kridler, (2005). A comparison of adaptive
time stepping methods for coupled flow and deformation modelling.
Applied mathematical modelling, Elsevier Inc.
Perrone, Vincent J., (1998). One Dimensional Computer Analysis of
Simultaneous Consolidation and Creep of Clay. Virginia Polytechnic
Institute and State University.
Lee Yew Choong Patrick, (2003). Numerical modelling of constant rate
of strain consolidation tests. M.Eng. Thesis, Massachusetts Institute of
Technology, Dept. of Civil and Sanitary Engineering.
C. D. Foster, R. A. Regueiro, A. F. Fossum, R. I. Borja, (2005). Implicit
numerical integration of a three-invariant, isotropic/kinematic
hardening cap plasticity model for geomaterials. Computer Mtehods in
applied mechanics and engineering 194, 5109-5138, Elsevier B.V.
M.D. Bolton, R.J. English, C.C. Hird, A.N. Schofield. Modelling.
U.M.I.S.T. University of Cambridge Engineering Department.
M.D. Bolton, M.W. Gui. Modelling of Sand over a wide stress range
using Flac. University of Cambridge Engineering Department.
A. El. Hamalawi & M. D. Bolton, (2002). A-posteriori error estimation in
axisymmetric geotechnical analyses. Computers and Geotechnics 29,
587-607, Elsevier Science Ltd.
Scott Ronald F. (1953). Numerical Analysis of consolidation problems.
Ms Thesis Massachusetts Institute of Technology, Dept. of Civil and
Sanitary Engineering.
Wotring, D., 2004. VISUALIZATION IN GEOMECHANICS WITH AN
APPLICATION TO DEEP EXCAVATIONS, Ph.D. Thesis, UIUC.
Hashash, Y.M., Q. Fu, and J. Butkovich, 2004. Generalized Strain
Probing of Constitutive Models. International Journal of Numerical and
Analytical Methods in Geomechanics, 28: p. 1503-1519. John Wiley &
Sons Ltd.
M.B. Jaksa, P.I. Brooker and W.S. Kaggwa, (1997). Modelling the
spatial variability of the undrained shear strength of clay using
geostatistics. E.Y. Baafi and N.A. Schofield, Geostatistics Wollongong
'96, Volume 2, 1284-1295. Kluwer Publishers, Netherlands.
Petr Krysl, (2005). A Pragmatic Introduction to the Finite Element
Method for Thermal and Stress Analysis. With the Matlab toolbox
SOFEA. Pressure Cooker Press.
Jose E. Andrade, (2006). Meso-Scale Finite Element Simulation of
Deformation banding in Fluid-Saturated sands. PhD Thesis,
Department of Civil and Environmental Engineering, Stanford University.
Jose E. Andrade, Ronaldo I. Borja, (2007). Modeling deformation
banding in dense and loose fluid-saturated sands. Finite Elements in
Analysis and Design.
Victor E. Saouma. Draft - Lecture Notes in: Finite Element II - Solid
Mechanics. Department of Civil Environmental and Architectural
Engineering, University of Colorado, Boulder.
Susan E. Minkoff, (2002). Spatial Parallelism of a 3D Finite Difference
Velocity-Stress Elastic wave propagation code. SIAM Journal Scientific
Computing, vol. 24. Society for Industrial and Applied Mathematics.
Susan E. Minkoff, C. Mike Stone, Steve Bryant, Malgorzata Peszynska,
Mary F. Wheeler, (2003). Coupled fluid flow and geomechanical
deformation modelling. Journal of Petroleum Science and Engineering
38, 37-56, Elsevier Science B.V.
Muir Wood, D. Mackenzie, N.L. and Chan, A.H.C. (1992). Selection of
parameters for numerical predictions. Predictive soil mechanics,
proceedings of the wroth memorial symposium St. Catherine's College,
Oxford. Thomas Telford Services. Sage Crisp Publications Directory.
Hashash, Y.M.A., J.I.-C. Yao, and D. Wotring, 2003. Glyph and
hypersteamline representation of stress and strain tensors and
material constitutive response. International Journal for Numerical and
Analytical Methods in Geomechanics, 27: pp.603-626. John Wiley &
Sons Ltd.
Rick H. Dean, Xiuli Gai, Charles M. Stone, Susan E. Minkoff, (2003). A
comparison of techniques for coupling porous flow and Geomechanics.
SPE 79709, Society of Petroleum Engineers Inc.
Hashash, Y.M.A., D. Wotring, J.I.-C. Yao, J.-S. Lee, and Q. Fu, 2002.
Visual Framework for Development and use of Constitutive Models.
International Journal for Numerical and Analytical Methods in
Geomechanics, 26: 1493-1513. John Wiley & Sons Ltd.
J.S. Sharma and M.D. Bolton, (1996). Finite Element Analysis of
Centrifuge Tests on Reinforced Embankments on Soft Clay. Computers
and Geotechnics, Vol.19, No.1, pp. 1-22, Elsevier Science Limited, UK.
M.D. Bolton, A.M. Britto, W. Powrie, T.P. White, (1989). Finite Element
Analysis of a Centrifuge Model of a retaining wall embedded in a
heavily overconsolidated clay. Computers and Geotechniques 7, 289-
318, Elsevier Science Publishers Ltd. UK.
A. El-Hamalawi, M.D. Bolton, A.M. Britto, (1996). A Cubic Strain
quadrilateral Finite Element. International Journal for Numerical and
Analytical Methods in Geomechanics, Vol. 20, 295-302, John Wiley &
Sons Ltd.
H.S. Yu, G.T. Houlsby and H.J Burd, (1993). A Novel Isoparametric Finite
Element displacement formulation for Axisymmetric Analysis of nearly
incompressible materials. International Journal for Numerical Methods
in Engineering, Vol.36, 2453-2472, John Wiley & Sons Ltd.
M.D Bolton, H.W. Sun, A.M. Britto, (1993). Finite Element Analysis of
Bridge Abutments on Firm Clay. Computers and Geotechnics 15, 221-
245, Crown Copyright, UK.
A. El-Hamalawi, M.D. Bolton, (1999). An a posteriori error estimator for
plane-strain geotechnical analyses. Finite Elements in Analysis and
Design 33, 335-354. Elsevier Science B.V.
Richard A. Regueiro, Ronaldo I. Borja, (1999). A finite element model of
localized deformation in frictional materials taking a strong
discontinuity approach. Finite Elements in Analysis and Design 33, 283-
315. Elsevier Science B.V.
Ronaldo I. Borja, Richard A. Regueiro, Timothy Y. Lai, (2000). FE
Modeling of Strain localization in soft rock. Journal of Geotechnical and
Geoenvironmental Engineering.
Ronaldo I. Borja, (2000). A finite element model for strain localization
analysis of strongly discontinuous fields based on standard Galerkin
approximation. Computer Methods in applied Mechanics Engineering
190, 1529-1549. Elsevier Science S.A.
Richard A. Regueiro, Ronaldo I. Borja, (2001). Plane strain finite
element analysis of pressure sensitive plasticity with strong
discontinuity. International Journal of Solids and Structures 38, 3647-
3672. Elsevier Science Ltd.
Akers Stephen Andrew, (2001). Two-dimensional finite element
analysis of Porous Geomaterials at Multikilobar Stress Levels. PhD
Thesis, Department of Civil Engineering, Virgina Polytechnic Institute
and State University, Blacksburg, Virginia.
Philippe Mestat and Jean-Pierre Berthelon, (2001). Finite element
modelling of shallow foundation tests at the Labenne site. Laboratoire
Central des Ponts et Chaussees. BLPC/1234.
Bentler J. David, (1998). Finite element analysis of Deep Excavations.
PhD Thesis, Department of Civil Engineering, Virgina Polytechnic
Institute and State University, Blacksburg, Virginia.
Stuart Hardy, (2003). The implementation and application of dynamic
finite element analysis to geotechnical problems. PhD Thesis, Imperial
College of Science, Technology and Medicine, London.
Murray Fredlund, (2004). Finite element Stochastic Analysis. 57th
Canadian Geotechnical Conference and 5th Joint IAH-CGS Conference,
Quebec, QC, Canada.
R.W. Bell, G.T. Houlsby and H.J. Burd, (1993). Suitability of three-
dimensional finite elements for modelling material incompressibility
using exact integration. Communications in numerical methods in
Engineering, Vol. 9, 313-329, John Wiley & Sons Ltd.
H.J. Burd and G.T. Houlsby, (1990). Finite Element analysis of two
cylindrical expansion problems involving nearly incompressible material
behaviour. International Journal for numerical and analytical methods
in Geomechanics Vol. 14, 351-366. John Wiley & Sons Ltd.
G.T. Houlsby, G. Liu and C.E. Augarde, (2000). A trying scheme for
imposing displacement constraints in finite element analysis.
Communications in Numerical Methods in Engineering. 16:721-732.
John Wiley & Sons Ltd.
H.S. Yu and G.T. Houlsby, (1990). A new finite element formulation for
One-dimensional analysis of elastic-plastic materials. Computers and
Geotechnics 9, 241-256. Elsevier Science Publishers Ltd. UK.
H.J. Burd and G.T. Houlsby, (1986). A large strain finite element
formulation for one-dimensional membrane elements. Computers and
Geotechnics 2, 3-22. Elsevier Applied Science Publishers Ltd. UK.
Ronaldo I. Borja, (2002). Finite element simulation of strain localization
with large deformation: capturing strong discontinuity using a Petrov-
Galerkin multiscale formulation. Computer Methods in applied
mechanics and engineering 191, 2949-2978. Elsevier Science B.V.
H.J. Burd, H.S. Yu, G.T. Houlsby, (1989). Finite element implementation
of Frictional Plasticity Models with Dilation. Proceedings of the
International Conference on Constitutive Laws for Engineering
Materials, Chongqing, China.
Powrie W., Li E.S.F., (1991). Finite Element analyses of an In-Situ wall
propped at formation level. Geotechnique 41, No.4, 499-514. SAGE
Crisp publications directory. Thomas Telford Services Ltd. London.
M.J. Gunn, A. Satkunananthan, C.R.I. Clayton, (1992). Finite Element
Modelling of Installation Effects. ICE Conference on Retaining
structures, Robinson College, Cambridge, pp. 46-55. SAGE Crisp
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Computational Geomechanics
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