Investigation on Geosynthetic-Reinforced Soil Retaining Walls and Slopes
During Ji-Ji Earthquake , by H.I. Ling, D. Leshchinsky, N.S. Chou, Soil
Dynamics and Earthquake Engineering, 21(4), 297-313, in PDF format
The 9th Buchanan Lecture series, presented by R.D. Holtz (2001)
"Geosynthetics for soil reinforcement". Available by the Department of
Civil Engineering at Texas A& M University.
Massarsch, K. R. (2003). Effects of vibratory compaction, Keynote Lecture
presented at the TransVib conference in Brussels, 2003, available by the
AB Geoengineering website.
Massarsch, K. R., Fellenius, B.H. (2002), Vibratory compaction of coarse
grained soils, Canadian Geotechnical Journal, Vol. 39, No.3, available by
the AB Geoengineering website.
A collection of GRI test methods for geosynthetics, by Professor Koerner,
Drexel University
Specifications, guides and white papers from the GRI.
All papers published in the Geosynthetics International Journal from 1994
to 2002. A real treasure available by the International Geosynthetics
Society.
Engineer Technical Letter (ETL 1110-1-185). Engineering and Design
Guidelines on Ground Improvement on Structures and Facilities. Available
by the US Army Corps of Engineers, (1999), Washington.
Technical Manual (TM 5-822-14). Soil Stabilization for pavements.
Department of the Army, the Navy and the Air Force, (1994).
A Ground Improvement Update from TerraSystems. Soil Modulus after
Ground Improvement. Available by TerraSystems Incorporated.
Michel Kergoet & Jean Bimbard, (2001). Monitoring Soil Treatment works.
Laboratoire ri gional des Ponts et Chaussi es de l'Est parisien / Lyon.
Michel Kergoet, (2001). An example of Treatment Design for use of a soil
as a capping layer. Laboratoire ri gional des Ponts et Chaussi es de l'Est
parisien / Lyon.
Russel A. Green, (2001). Energy-Based Evaluation & Remediation of
Liquefiable Soils. PhD Thesis, Virginia Polytechnic Institute and State
University.
Harry G. Cooke, (2000). Ground Improvement for Liquefaction Mitigation
at Existing Highway Bridges. PhD. Thesis, Virginia Polytechnic Institute
and State University.
Patricia M. Gallagher, (2000). Passive Site Remedation for Mitigation of
Liquefaction Risk. PhD Thesis, Virginia Polytechnic Institute and State
University.
Russel A. Green & James K. Mitchell, (2004). Energy-Based Evaluation &
Remedation of Liquefiable Soils. Geotechnical Engineering for
Transportation Projects (M. Yegian and E. Kavazanjian, ed.), ASCE
Geotechnical Special Publication No. 126, Vol. 2, 1961-1970.
Design Procedures for Soil Modification or Stabilization. Materials and Test
Division Geotechnical Section, Indiana, 2002.
Technical Manual, TM 5-818-6, Air Force Manual 88-32, (1970). Grouting
Methods and Equipment. Departments of the Army and the Air Force.
Engineering Manual EM 1110-2-3506, (1984). Engineering and Design -
GROUTING TECHNOLOGY. Department of the Army U.S. Army Corps of
Engineers Washington, DC.
Engineering Manual EM 1110-1-3500, (1995). Engineering and Design -
Chemical Grouting. Department of the Army U.S. Army Corps of Engineers
Washington, DC.
M.D. Bolton, C.Y. Chin & Y.C. Lu, (1994). Compensation Grouting.
Centrifuge 94, Leung, Lee & Tan, Balkema, Rotterdam.
M.D. Bolton, Y.C. Lu & J.S. Sharma, (1996). Centrifuge models of tunnel
construction and compensation grouting. Geotechnical Aspects of
Underground Construction in Soft Ground, Mair & Taylor, Balkema,
Rotterdam.
S.W. Lee, G.R. Dsari, R.J. Mair, M.D. Bolton, K. Soga, T. Sugiyama, Y. Ano,
T. Hagiwara, M. Nomoto (2000). The effects of compensation grouting on
segmental tunnel linings. Geotechnical aspects of Underground
Construction in Soft Ground, Kusakabe, Fujita & Miyazaki. Balkema,
Rotterdam.
T. Sugiyama, T. Nomoto, M. Nomoto, Y. Ano, T. Hagiwara, R.J. Mair, M.D.
Bolton, K. Soga, (2000). Compensation grouting at the Docklands Light
Railway Lewisham Extension project. Geotechnical aspects of
Underground Construction in Soft Ground, Kusakabe, Fujita & Miyazaki.
Balkema, Rotterdam.
Thevachandran Shenthan, Rafeek G. Nashed, Sabanayagam
Thevanayagam, Geoffrey R. Martin, (2003). Liquefaction Mitigation in silty
Soils using Composite Stone Columns and Dynamic Compaction. MCEER
Research Progress and Accomplishments.
Victor Elias, Barry R. Christopher, Ryan R. Berg, (2001). Report No: FHWA-
NHI-00-043: Mechanically Stabilized Earth Walls and Reinforced Soil
Slopes Design and Construction Guidelines. National Highway Institute.
Federal Highway Administrator, U.S. Department of Transportation,
Washington D.C.
Victor Elias, (2000). Report No: FHWA-NHI-00-044: Corrosion /
Degradation of Soil Reinforcements for Mechanically Stabilized Earth Walls
and Reinforced Soil Slopes. National Highway Institute. Federal Highway
Administrator, U.S. Department of Transportation, Washington D.C.
C. Guney Olgun, (2003). Performance of improved ground and reinforced
soil structures during earthquakes - Case Studies and Numerical
Analyses. PhD Thesis in Civil and Environmental Engineering, Virginia
Polytechnic Institute and State University, Blacksburg, VA.
Harvey John Burd, (1986). A Large Displacement Finite Element Analysis
of a Reinforced Unpaved Road. PhD Thesis, University of Oxford.
Christopher Joseph Brocklehurst, (1993). Finite Element Studies of
Reinforced and Unreinforced Two-Layer Soil Systems. PhD Thesis,
University of Oxford.
Amitava Roy, Lan Wang, Roger L. Seals, John B. Metcalf, (2003). Technical
Report (FHWA/LA.03/366). Stabilization Techniques for Reactive
Aggregate in Soil-Cement Base Course. Louisiana Transportation
Research Center.
Kevin J. Gaspard, (2000). Evaluation of Cement Treated Base Courses.
Technical Assistance Report No. 00-1TA. Louisiana Transportation
Research Center. Louisiana Department of Transportation and
Developemnt.
Lee, K., Salgado, R., Jeon, W. and Kim, N. , (2002). Engineering Properties
of Wastewater Treatment Sludge Modified by Hydrated Lime and Fly Ash.
Journal of Solid Waste Technology and Management, 28(3), 145-153.
Arip-Kituyan Emmanuel Olekambainei, (2004). The Influence of moulding
moisture content on the engineering properties of Aggregate-Lime-
Natural Pozzolan mixes. MSc Thesis of Transportation Engineering,
University of Pretoria, Faculty of Engineering, Built Environment and
Information.
Thomas M. Petry, Khaled Sobhan, (2005). Evaluation of Chemical
Stabilizers. State of the Practice Report. Transportation Research Circular
E-C086, Washington.
Robert G. Lukas, (1995). Technical Report FHWA-SA-95-037. Geotechnical
Engineering No.1, Dynamic Compaction. U.S. Department of
Transportation. Federal Highway Administration. Office of Engineering,
Office of Technology Applications, Washington.
J.G. Wang, B. Oh, S.W. Lim, G.S. Kumar, (1999). Effect of different jet-
grouting installations on neighboring structures. Field Measurements in
Geomechanics, Leung, Tan & Phoon (eds), Balkema, Rotterdam.
Jean-Charles Benezet, Ali Benhassaine, (2002). Contribution of the grain-
size distribution of powder contents during the possolanic reaction within
a lime paste. Bulletin des Laboratoires des Ponts et Chaussιes 235.
J.G. Wang, B. Oh, S.W. Lim, G.S. Kumar, (1998). Studies on Soil
Disturbance caused by Grouting in treating Marine Clay. 2nd International
Conference on Ground Improvement Techniques, Singapore.
Jean Voirin, Didier Desmoulin, Andre Lecomte, (2001). Predicting the long
term strength of road mixes treated with cementitious binders. Bulletin
des Laboratoires des Ponts et Chaussιes 231.
K. Soga, M.D. Bolton, S.K.A. Au, K. Komiya, J.P. Hamelin, A. Van Cotthem,
G. Buchet, J.P. Michel, (2000). Development of compensation grouting
modelling and control system. Geotechnical aspects of Underground
Construction in Soft Ground, Kusakabe, Fujita & Miyazaki. Balkema,
Rotterdam.
J.D. McKinley, M.D. Bolton, (1999). A Geotechnical description of fresh
cement grout - filtration and consolidation behaviour. Magazine of
Concrete Research, 51, No.5, 295-307. Thomas Telford Ltd.
S.W. Lee, M.D. Bolton, R.J. Mair, K. Soga, G.R. Dasari, T. Hagiwara, (2001).
Centrifuge and numerical modelling of compensation grouting near tunnel
linings. 15th International Conference on Soil Mechanics and Geotechnical
Engineering, Istanbul.
Almer E.C. van der Stoel, (2001). Grouting for pile foundation
improvement. PhD thesis, Delft University.
M.D. Bolton and C.Y. Chin, (1994). Soil Grouting in the Mini-Drum
Centriguge. Cambridge University Engineering Department Technical
Report.
Thomas Dalmalm, (2004). Choice of Grouting Method for jointed hard rock
based on sealing time predictions. PhD Thesis, Division of Soil and Rock
Mechanics, Department of Civil and Architectural Engineering, Royal
Institute of Technology, Stockholm.
O. Chupin, N. Saiyouri and P.Y. Hicher, (2003). Numerical Modelling of
cement grout injection in saturated porous media. 16th ASCE Engineering
Mechanics Conference, University of Washington, Seattle.
Dr. Almer E.C. van der Stoel, (2003). Pile Foundation Improvement by
Permeation Grouting. Grouting & Ground Treatment, Proc. of the 3rd
international conference DFI / ASCE New Orleans.
TerraNotes: A Ground Improvement Update from TerraSystems. Dynamic
Compaction for Sinkhole Correction. TerraSystems Incorporated.
TerraNotes: A Ground Improvement Update from TerraSystems. Ground
Vibrations with Dynamic Compaction. TerraSystems Incorporated.
Chung Gong, (2001). Finite Element Analysis of Dynamic Compaction of a
Stack of four B-25 Boxes (U). Safety Responsibility Security (SRS).
Savannah River Site. U.S. Department of Energy , U.S. Department of
Commerce, National Technical Information Service.
Ir Kenny Yee, (1999). Upgrading of existing landfills by Dynamic
Consolidation: A Geotechnical Aspect. Master Builders Journal.
M.R. Dyer, (1985). Observation of the stress distribution in crushed glass
with applications to soil reinforcement, Abstract. PhD Thesis, Oxford
University Civil Engineering Department of Engineering Science.
Ennio Marques Palmeira, (1987). The Study of Soil-Reinforcement
interaction by Means of Large Scale Laboratory Tests, Abstract. PhD
Thesis, Oxford University Civil Engineering Department of Engineering
Science.
Martin John Pedley, (1990). The Performance of Soil Reinforcement in
Bending and Shear, Abstract. PhD Thesis, Oxford University Civil
Engineering Department of Engineering Science.
Kouji Tei, (1993). A Study of Soil Nailing in Sand, Abstract. PhD Thesis,
Oxford University Civil Engineering Department of Engineering Science.
Jonathan David Morris, (1999). Physical and Numerical Modelling of
Grouted Nails in Clay, Abstract. PhD Thesis, Oxford University Civil
Engineering Department of Engineering Science.
J.A. Scarborough, G.M. Filz, J.M. Mitchell, T.L. Brandon, E.J. Hoppe, S.L.
Hite. Design of high reinforced embankments constructed with poor
quality soil and degradable shale.
David Hutchinson, (2004). Application and design of Segmental Precast
Arches. Geotechnical Engineering for Transportation Projects, Proceedings
of Geo-Trans 2004, July 27-31, 2004, Los Angeles, CA.
J.E. Sankey, P. Segrestin. Evaluation of seismic performance in
Mechanically Stabilized Earth Structures.
N.C. Smtani, E.A. Nowatzki, (2006). Hollow Core Soil Nails State of the
Practice: Document Info. NCS Consultants LLC. Office of Bridge
Technology, Federal Highway Administration.
R.D. Barksdale, R.C. Bachus, (1983). Design and Construction of Stone
Columns Volume I. Report No: FHWA/RD-83/026. Federal Highway
Administration, Office of Engineering and Highway Operations, Research
and Development, Washington D.C.
R.D. Barksdale, R.C. Bachus, (1983). Design and Construction of Stone
Columns Volume II, Appedixes. Report No: FHWA/RD-83/027. School of
Civil Engineering, Georgia Institute of Technology, Atlanta - Georgia.
Federal Highway Administration, Office of Engineering and Highway
Operations Research and Development, Washington D.C.
Report No: FHWA/RD-86/168. Prefabricated Vertical Drains, (1986). US
Department of Transportation. Federal Highway Administration. Research,
Development and Technology.
ARMY TM 5-818-5, NAVY NAVFAC P-418, AIR FORCE AFM88-5, Chap 6:
Dewatering and Groundwater Control, (1983). Department of the Army,
the Navy and the Air Force.
Thevachandran Shenthan, Rafeek G. Nashed, Sabanayagam
Thevanayagam and Geoffrey R. Martin, (2003). Liquefaction Mitigation in
Silty Soils Using Composite Stone Columns and Dynamic Compaction.
MCEER Research Progress and Accomplishments.
Tom Armour, Paul Groneck, James Keelev, Sunil Sharma, (2000). Micropile
Design and Construction Guidelines Implementation Manual - Priority
Technologies Program (PTP) Project. PUBLICATION NO. FHWA - SA - 97 -
070. US Department of Transportation, Federal Highway Administration,
Priority Technologies Program.
K. Omine, H. Ochiai, M.D. Bolton, (1999). Homogenization method for
numerical analysis of improved ground with cement-treated soil columns.
Proceedings of the International Conference on Dry Mix Methods for Deep
Soil Stabilization, Stockholm, 161-168.
Stefan Larsson, (2003). Mixing Processes for Ground Improvement by
Deep Mixing. PhD thesis, Royal Institute of Technology in Stockholm, KTH,
Department of Civil and Environmental Engineering.
H. Mitrani, S.P.G. Madabhushi, (2006). Technical Report: CUED/D-SOILS/TR.
345 (2006). Use of inclined micro-piles as a liquefaction remediation
method for existing buildings - Data report on centrifuge tests MP1, MP2
and MP3. Cambridge University Engineering Department.
Joo Chai Wong, (2004). Seismic Bahavior of Micropiles. MSc Thesis,
Department of Civil & Environmental Engineering, Washington State
University.
Sathishbalamurugan Murugaiah, (2004). Numerical Simulation of the
Performance of Sand Columns. MSc Thesis, Department of Civil &
Environmental Engineering, Washington State University.
Shanzhi Shu, (2005). Sand State and Performance Analysis of Micropiles.
PhD Thesis, Department of Civil and Environmental Engineering,
Washington State University.
R.J. Krizek, (2004). Slurries in Geotechnical Engineering. The 12th Spencer
J. Buchanan Lecture. Texas A&M University, College Station, Texas
Lee J., Salgado R., Karim A. and Lovell C.W., (2001). Compaction and
Shear Strength of Fly and Bottom Ash Mixtures. Journal of Solid Waste
Technology and Management, 27(3), 137-145.
Lee K., Yoon Y., Cho J., Salgado R., Lee I., and Kim N., (2002). Engineering
Properties of Waste Foundry Sand Mixtures as Controlled Low Strength
Materials. Journal of Solid Waste Technology and Management, 28(4),
190-199.
Zia N., Kim D. and Salgado R., (2004). Use of Recycled and Waste
Materials in Indiana. Transportation Research Record, Journal of the
Transportation Research Board, Vol. 1874, TRB, December, 2004, 78-95.
During Ji-Ji Earthquake , by H.I. Ling, D. Leshchinsky, N.S. Chou, Soil
Dynamics and Earthquake Engineering, 21(4), 297-313, in PDF format
The 9th Buchanan Lecture series, presented by R.D. Holtz (2001)
"Geosynthetics for soil reinforcement". Available by the Department of
Civil Engineering at Texas A& M University.
Massarsch, K. R. (2003). Effects of vibratory compaction, Keynote Lecture
presented at the TransVib conference in Brussels, 2003, available by the
AB Geoengineering website.
Massarsch, K. R., Fellenius, B.H. (2002), Vibratory compaction of coarse
grained soils, Canadian Geotechnical Journal, Vol. 39, No.3, available by
the AB Geoengineering website.
A collection of GRI test methods for geosynthetics, by Professor Koerner,
Drexel University
Specifications, guides and white papers from the GRI.
All papers published in the Geosynthetics International Journal from 1994
to 2002. A real treasure available by the International Geosynthetics
Society.
Engineer Technical Letter (ETL 1110-1-185). Engineering and Design
Guidelines on Ground Improvement on Structures and Facilities. Available
by the US Army Corps of Engineers, (1999), Washington.
Technical Manual (TM 5-822-14). Soil Stabilization for pavements.
Department of the Army, the Navy and the Air Force, (1994).
A Ground Improvement Update from TerraSystems. Soil Modulus after
Ground Improvement. Available by TerraSystems Incorporated.
Michel Kergoet & Jean Bimbard, (2001). Monitoring Soil Treatment works.
Laboratoire ri gional des Ponts et Chaussi es de l'Est parisien / Lyon.
Michel Kergoet, (2001). An example of Treatment Design for use of a soil
as a capping layer. Laboratoire ri gional des Ponts et Chaussi es de l'Est
parisien / Lyon.
Russel A. Green, (2001). Energy-Based Evaluation & Remediation of
Liquefiable Soils. PhD Thesis, Virginia Polytechnic Institute and State
University.
Harry G. Cooke, (2000). Ground Improvement for Liquefaction Mitigation
at Existing Highway Bridges. PhD. Thesis, Virginia Polytechnic Institute
and State University.
Patricia M. Gallagher, (2000). Passive Site Remedation for Mitigation of
Liquefaction Risk. PhD Thesis, Virginia Polytechnic Institute and State
University.
Russel A. Green & James K. Mitchell, (2004). Energy-Based Evaluation &
Remedation of Liquefiable Soils. Geotechnical Engineering for
Transportation Projects (M. Yegian and E. Kavazanjian, ed.), ASCE
Geotechnical Special Publication No. 126, Vol. 2, 1961-1970.
Design Procedures for Soil Modification or Stabilization. Materials and Test
Division Geotechnical Section, Indiana, 2002.
Technical Manual, TM 5-818-6, Air Force Manual 88-32, (1970). Grouting
Methods and Equipment. Departments of the Army and the Air Force.
Engineering Manual EM 1110-2-3506, (1984). Engineering and Design -
GROUTING TECHNOLOGY. Department of the Army U.S. Army Corps of
Engineers Washington, DC.
Engineering Manual EM 1110-1-3500, (1995). Engineering and Design -
Chemical Grouting. Department of the Army U.S. Army Corps of Engineers
Washington, DC.
M.D. Bolton, C.Y. Chin & Y.C. Lu, (1994). Compensation Grouting.
Centrifuge 94, Leung, Lee & Tan, Balkema, Rotterdam.
M.D. Bolton, Y.C. Lu & J.S. Sharma, (1996). Centrifuge models of tunnel
construction and compensation grouting. Geotechnical Aspects of
Underground Construction in Soft Ground, Mair & Taylor, Balkema,
Rotterdam.
S.W. Lee, G.R. Dsari, R.J. Mair, M.D. Bolton, K. Soga, T. Sugiyama, Y. Ano,
T. Hagiwara, M. Nomoto (2000). The effects of compensation grouting on
segmental tunnel linings. Geotechnical aspects of Underground
Construction in Soft Ground, Kusakabe, Fujita & Miyazaki. Balkema,
Rotterdam.
T. Sugiyama, T. Nomoto, M. Nomoto, Y. Ano, T. Hagiwara, R.J. Mair, M.D.
Bolton, K. Soga, (2000). Compensation grouting at the Docklands Light
Railway Lewisham Extension project. Geotechnical aspects of
Underground Construction in Soft Ground, Kusakabe, Fujita & Miyazaki.
Balkema, Rotterdam.
Thevachandran Shenthan, Rafeek G. Nashed, Sabanayagam
Thevanayagam, Geoffrey R. Martin, (2003). Liquefaction Mitigation in silty
Soils using Composite Stone Columns and Dynamic Compaction. MCEER
Research Progress and Accomplishments.
Victor Elias, Barry R. Christopher, Ryan R. Berg, (2001). Report No: FHWA-
NHI-00-043: Mechanically Stabilized Earth Walls and Reinforced Soil
Slopes Design and Construction Guidelines. National Highway Institute.
Federal Highway Administrator, U.S. Department of Transportation,
Washington D.C.
Victor Elias, (2000). Report No: FHWA-NHI-00-044: Corrosion /
Degradation of Soil Reinforcements for Mechanically Stabilized Earth Walls
and Reinforced Soil Slopes. National Highway Institute. Federal Highway
Administrator, U.S. Department of Transportation, Washington D.C.
C. Guney Olgun, (2003). Performance of improved ground and reinforced
soil structures during earthquakes - Case Studies and Numerical
Analyses. PhD Thesis in Civil and Environmental Engineering, Virginia
Polytechnic Institute and State University, Blacksburg, VA.
Harvey John Burd, (1986). A Large Displacement Finite Element Analysis
of a Reinforced Unpaved Road. PhD Thesis, University of Oxford.
Christopher Joseph Brocklehurst, (1993). Finite Element Studies of
Reinforced and Unreinforced Two-Layer Soil Systems. PhD Thesis,
University of Oxford.
Amitava Roy, Lan Wang, Roger L. Seals, John B. Metcalf, (2003). Technical
Report (FHWA/LA.03/366). Stabilization Techniques for Reactive
Aggregate in Soil-Cement Base Course. Louisiana Transportation
Research Center.
Kevin J. Gaspard, (2000). Evaluation of Cement Treated Base Courses.
Technical Assistance Report No. 00-1TA. Louisiana Transportation
Research Center. Louisiana Department of Transportation and
Developemnt.
Lee, K., Salgado, R., Jeon, W. and Kim, N. , (2002). Engineering Properties
of Wastewater Treatment Sludge Modified by Hydrated Lime and Fly Ash.
Journal of Solid Waste Technology and Management, 28(3), 145-153.
Arip-Kituyan Emmanuel Olekambainei, (2004). The Influence of moulding
moisture content on the engineering properties of Aggregate-Lime-
Natural Pozzolan mixes. MSc Thesis of Transportation Engineering,
University of Pretoria, Faculty of Engineering, Built Environment and
Information.
Thomas M. Petry, Khaled Sobhan, (2005). Evaluation of Chemical
Stabilizers. State of the Practice Report. Transportation Research Circular
E-C086, Washington.
Robert G. Lukas, (1995). Technical Report FHWA-SA-95-037. Geotechnical
Engineering No.1, Dynamic Compaction. U.S. Department of
Transportation. Federal Highway Administration. Office of Engineering,
Office of Technology Applications, Washington.
J.G. Wang, B. Oh, S.W. Lim, G.S. Kumar, (1999). Effect of different jet-
grouting installations on neighboring structures. Field Measurements in
Geomechanics, Leung, Tan & Phoon (eds), Balkema, Rotterdam.
Jean-Charles Benezet, Ali Benhassaine, (2002). Contribution of the grain-
size distribution of powder contents during the possolanic reaction within
a lime paste. Bulletin des Laboratoires des Ponts et Chaussιes 235.
J.G. Wang, B. Oh, S.W. Lim, G.S. Kumar, (1998). Studies on Soil
Disturbance caused by Grouting in treating Marine Clay. 2nd International
Conference on Ground Improvement Techniques, Singapore.
Jean Voirin, Didier Desmoulin, Andre Lecomte, (2001). Predicting the long
term strength of road mixes treated with cementitious binders. Bulletin
des Laboratoires des Ponts et Chaussιes 231.
K. Soga, M.D. Bolton, S.K.A. Au, K. Komiya, J.P. Hamelin, A. Van Cotthem,
G. Buchet, J.P. Michel, (2000). Development of compensation grouting
modelling and control system. Geotechnical aspects of Underground
Construction in Soft Ground, Kusakabe, Fujita & Miyazaki. Balkema,
Rotterdam.
J.D. McKinley, M.D. Bolton, (1999). A Geotechnical description of fresh
cement grout - filtration and consolidation behaviour. Magazine of
Concrete Research, 51, No.5, 295-307. Thomas Telford Ltd.
S.W. Lee, M.D. Bolton, R.J. Mair, K. Soga, G.R. Dasari, T. Hagiwara, (2001).
Centrifuge and numerical modelling of compensation grouting near tunnel
linings. 15th International Conference on Soil Mechanics and Geotechnical
Engineering, Istanbul.
Almer E.C. van der Stoel, (2001). Grouting for pile foundation
improvement. PhD thesis, Delft University.
M.D. Bolton and C.Y. Chin, (1994). Soil Grouting in the Mini-Drum
Centriguge. Cambridge University Engineering Department Technical
Report.
Thomas Dalmalm, (2004). Choice of Grouting Method for jointed hard rock
based on sealing time predictions. PhD Thesis, Division of Soil and Rock
Mechanics, Department of Civil and Architectural Engineering, Royal
Institute of Technology, Stockholm.
O. Chupin, N. Saiyouri and P.Y. Hicher, (2003). Numerical Modelling of
cement grout injection in saturated porous media. 16th ASCE Engineering
Mechanics Conference, University of Washington, Seattle.
Dr. Almer E.C. van der Stoel, (2003). Pile Foundation Improvement by
Permeation Grouting. Grouting & Ground Treatment, Proc. of the 3rd
international conference DFI / ASCE New Orleans.
TerraNotes: A Ground Improvement Update from TerraSystems. Dynamic
Compaction for Sinkhole Correction. TerraSystems Incorporated.
TerraNotes: A Ground Improvement Update from TerraSystems. Ground
Vibrations with Dynamic Compaction. TerraSystems Incorporated.
Chung Gong, (2001). Finite Element Analysis of Dynamic Compaction of a
Stack of four B-25 Boxes (U). Safety Responsibility Security (SRS).
Savannah River Site. U.S. Department of Energy , U.S. Department of
Commerce, National Technical Information Service.
Ir Kenny Yee, (1999). Upgrading of existing landfills by Dynamic
Consolidation: A Geotechnical Aspect. Master Builders Journal.
M.R. Dyer, (1985). Observation of the stress distribution in crushed glass
with applications to soil reinforcement, Abstract. PhD Thesis, Oxford
University Civil Engineering Department of Engineering Science.
Ennio Marques Palmeira, (1987). The Study of Soil-Reinforcement
interaction by Means of Large Scale Laboratory Tests, Abstract. PhD
Thesis, Oxford University Civil Engineering Department of Engineering
Science.
Martin John Pedley, (1990). The Performance of Soil Reinforcement in
Bending and Shear, Abstract. PhD Thesis, Oxford University Civil
Engineering Department of Engineering Science.
Kouji Tei, (1993). A Study of Soil Nailing in Sand, Abstract. PhD Thesis,
Oxford University Civil Engineering Department of Engineering Science.
Jonathan David Morris, (1999). Physical and Numerical Modelling of
Grouted Nails in Clay, Abstract. PhD Thesis, Oxford University Civil
Engineering Department of Engineering Science.
J.A. Scarborough, G.M. Filz, J.M. Mitchell, T.L. Brandon, E.J. Hoppe, S.L.
Hite. Design of high reinforced embankments constructed with poor
quality soil and degradable shale.
David Hutchinson, (2004). Application and design of Segmental Precast
Arches. Geotechnical Engineering for Transportation Projects, Proceedings
of Geo-Trans 2004, July 27-31, 2004, Los Angeles, CA.
J.E. Sankey, P. Segrestin. Evaluation of seismic performance in
Mechanically Stabilized Earth Structures.
N.C. Smtani, E.A. Nowatzki, (2006). Hollow Core Soil Nails State of the
Practice: Document Info. NCS Consultants LLC. Office of Bridge
Technology, Federal Highway Administration.
R.D. Barksdale, R.C. Bachus, (1983). Design and Construction of Stone
Columns Volume I. Report No: FHWA/RD-83/026. Federal Highway
Administration, Office of Engineering and Highway Operations, Research
and Development, Washington D.C.
R.D. Barksdale, R.C. Bachus, (1983). Design and Construction of Stone
Columns Volume II, Appedixes. Report No: FHWA/RD-83/027. School of
Civil Engineering, Georgia Institute of Technology, Atlanta - Georgia.
Federal Highway Administration, Office of Engineering and Highway
Operations Research and Development, Washington D.C.
Report No: FHWA/RD-86/168. Prefabricated Vertical Drains, (1986). US
Department of Transportation. Federal Highway Administration. Research,
Development and Technology.
ARMY TM 5-818-5, NAVY NAVFAC P-418, AIR FORCE AFM88-5, Chap 6:
Dewatering and Groundwater Control, (1983). Department of the Army,
the Navy and the Air Force.
Thevachandran Shenthan, Rafeek G. Nashed, Sabanayagam
Thevanayagam and Geoffrey R. Martin, (2003). Liquefaction Mitigation in
Silty Soils Using Composite Stone Columns and Dynamic Compaction.
MCEER Research Progress and Accomplishments.
Tom Armour, Paul Groneck, James Keelev, Sunil Sharma, (2000). Micropile
Design and Construction Guidelines Implementation Manual - Priority
Technologies Program (PTP) Project. PUBLICATION NO. FHWA - SA - 97 -
070. US Department of Transportation, Federal Highway Administration,
Priority Technologies Program.
K. Omine, H. Ochiai, M.D. Bolton, (1999). Homogenization method for
numerical analysis of improved ground with cement-treated soil columns.
Proceedings of the International Conference on Dry Mix Methods for Deep
Soil Stabilization, Stockholm, 161-168.
Stefan Larsson, (2003). Mixing Processes for Ground Improvement by
Deep Mixing. PhD thesis, Royal Institute of Technology in Stockholm, KTH,
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Ground Improvement
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