Lateral squeezing effects on cement-slag-bentonite slurry wall performance

[1] Opdyke, S.M., Evans, J.C. (2005): Slag-cement-bentonite slurry walls. Journal of Geotechnical and Geoenvironmental Engineering, 131(6), pp. 673–681. Opdyke S.M. Evans J.C. ( 2005 ): Slag-cement-bentonite slurry walls . Journal of Geotechnical and Geoenvironmental Engineering , 131 ( 6 ), pp. 673 – 681 . Search in Google Scholar

[2] Filz, G.M., Henry, L.B., Heslin, G.M., Davidson, R.R. (2001): Determining hydraulic conductivity of soil-bentonite using the API filter press. Geotechnical Testing Journal, 24(1), pp. 61–71. Filz G.M. Henry L.B. Heslin G.M. Davidson R.R. ( 2001 ): Determining hydraulic conductivity of soil-bentonite using the API filter press . Geotechnical Testing Journal , 24 ( 1 ), pp. 61 – 71 . Search in Google Scholar

[3] Evans, J. C. (1994): Hydraulic conductivity of vertical cutoff walls. In: Hydraulic Conductivity and Waste Contaminant Transport in Soil. Daniel, D, E, Trautwein, S.J. (eds.), ASTM International: West Conshohocken, Pennsylvania. Evans J. C. ( 1994 ): Hydraulic conductivity of vertical cutoff walls . In: Hydraulic Conductivity and Waste Contaminant Transport in Soil . Daniel D. E, Trautwein S.J. (eds.), ASTM International : West Conshohocken, Pennsylvania . Search in Google Scholar

[4] Yeo, S.S., Shackelford, C.D., Evans, J.C. (2005): Consolidation and hydraulic conductivity of nine model soil-bentonite backfills. Journal of Geotechnical and Geoenvironmental Engineering, 131(10), pp. 1189–1198. Yeo S.S. Shackelford C.D. Evans J.C. ( 2005 ): Consolidation and hydraulic conductivity of nine model soil-bentonite backfills . Journal of Geotechnical and Geoenvironmental Engineering , 131 ( 10 ), pp. 1189 – 1198 . Search in Google Scholar

[5] Filz, G.M., 1996. Consolidation stresses in soil-bentonite backfilled trenches. In: Environmental Geotechnics, Kamon, M. (ed.). CRC Press: Boca Raton, Florida, pp. 497–502. Filz G.M. , 1996 . Consolidation stresses in soil-bentonite backfilled trenches . In: Environmental Geotechnics , Kamon M. (ed.). CRC Press : Boca Raton, Florida , pp. 497 – 502 . Search in Google Scholar

[6] Li, Y.C., Cleall, P.J., Wen, Y.D., Chen, Y.M., Pan, Q. (2015): Stresses in soil-bentonite slurry trench cutoff walls. Géotechnique, 65(10), pp. 843–850. Li Y.C. Cleall P.J. Wen Y.D. Chen Y.M. Pan Q. ( 2015 ): Stresses in soil-bentonite slurry trench cutoff walls . Géotechnique , 65 ( 10 ), pp. 843 – 850 . Search in Google Scholar

[7] Ruffing, D.G., Evans, J.C., Malusis, M.A. (2010): Prediction of earth pressures in soil-bentonite cutoff walls. In: GeoFlorida 2010: Advances in Analysis, Modeling & Design, Fratta, D.O., Pupala, A.J., Muhunthan, B. (eds), ASCE Library: Reston, Virginia, pp. 2416–2425. Ruffing D.G. Evans J.C. Malusis M.A. ( 2010 ): Prediction of earth pressures in soil-bentonite cutoff walls . In: GeoFlorida 2010: Advances in Analysis, Modeling & Design , Fratta D.O. Pupala A.J. Muhunthan B. (eds), ASCE Library : Reston, Virginia , pp. 2416 – 2425 . Search in Google Scholar

[8] Ke, H., Tong, X., Li, Y.C., Chen, Y.M., Wen, Y.D. (2018): Force equilibrium-based model for predicting stresses in soil-bentonite cutoff walls. Journal of Geotechnical and Geoenvironmental Engineering, 144(2), p.04017112. Ke H. Tong X. Li Y.C. Chen Y.M. Wen Y.D. ( 2018 ): Force equilibrium-based model for predicting stresses in soil-bentonite cutoff walls . Journal of Geotechnical and Geoenvironmental Engineering , 144 ( 2 ), p. 04017112 . Search in Google Scholar

[9] Ruffing, D. G., Evans, J.C. (2014): Case study: construction and in situ hydraulic conductivity evaluation of a deep soil-cement-bentonite cutoff wall. In: Geo-Congress 2014: Geo-Characterization and Modeling for Sustainability, Abu-Farsakh, M., Yu, X., Hoyos, L.R. (eds.), ASCE Library: Reston, Virginia, pp. 1836–1848. Ruffing D. G. Evans J.C. ( 2014 ): Case study: construction and in situ hydraulic conductivity evaluation of a deep soil-cement-bentonite cutoff wall . In: Geo-Congress 2014: Geo-Characterization and Modeling for Sustainability , Abu-Farsakh M. Yu X. Hoyos L.R. (eds.), ASCE Library : Reston, Virginia , pp. 1836 – 1848 . Search in Google Scholar

[10] Bang, S., Kim, H.T. (1986): At rest to active earth pressure transition. Transportation Research Record, 1105, pp. 41–47. Bang S. Kim H.T. ( 1986 ): At rest to active earth pressure transition . Transportation Research Record , 1105 , pp. 41 – 47 . Search in Google Scholar

[11] Evans, J.C., Fang, H.Y., Kugelman, I.J. (1985): Containment of hazardous materials with soil-bentonite slurry walls. In: Proceedings of the 6th National Conference on the Management of Uncontrolled Hazardous Waste Sites, United States Environmental Protection Agency: Silver Spring, Maryland, pp. 249–252. Evans J.C. Fang H.Y. Kugelman I.J. ( 1985 ): Containment of hazardous materials with soil-bentonite slurry walls . In: Proceedings of the 6th National Conference on the Management of Uncontrolled Hazardous Waste Sites , United States Environmental Protection Agency : Silver Spring, Maryland , pp. 249 – 252 . Search in Google Scholar

[12] Potyondy, J.G. (1961): Skin friction between various soils and construction materials. Geotechnique, 11(4), pp. 339–353. Potyondy J.G. ( 1961 ): Skin friction between various soils and construction materials . Geotechnique , 11 ( 4 ), pp. 339 – 353 . Search in Google Scholar

[13] Das, B.M. (1998): Principles of Foundation Engineering. Brooks/Cole: Pacific Grove, California. Das B.M. ( 1998 ): Principles of Foundation Engineering . Brooks/Cole : Pacific Grove, California . Search in Google Scholar

[14] Clough, G.W., Duncan, J.M. (1991): Earth pressures. In: Foundation Engineering Handbook, Fang H.Y. (ed.). Springer Science-Business Media: New York. Clough G.W. Duncan J.M. ( 1991 ): Earth pressures . In: Foundation Engineering Handbook , Fang H.Y. (ed.). Springer Science-Business Media : New York . Search in Google Scholar

[15] Nejad, B.G., Osborne, T., Carter, J.P. (2017): Forensic Investigation of a Slurry Wall Failure: A Case Study. In: Grouting, ASCE Library: Reston, VA, USA, pp. 513–522. Nejad B.G. Osborne T. Carter J.P. ( 2017 ): Forensic Investigation of a Slurry Wall Failure: A Case Study . In: Grouting , ASCE Library : Reston, VA, USA , pp. 513 – 522 . Search in Google Scholar

[16] Sridharan, A., Nagaraj, H.B. (2004): Coefficient of consolidation and its correlation with index properties of remolded soils. Geotechnical Testing Journal, 27, 469–474. Sridharan A. Nagaraj H.B. ( 2004 ): Coefficient of consolidation and its correlation with index properties of remolded soils . Geotechnical Testing Journal , 27 , 469 – 474 . Search in Google Scholar

[17] Rao, D.K., Raju, R.P. & Kumar, R.A. (2011): Consolidation characteristics of treated marine clay for foundation bed soils. International Journal of Engineering Science and Technology. 3(2), pp. 788–796. Rao D.K. Raju R.P. & Kumar R.A. ( 2011 ): Consolidation characteristics of treated marine clay for foundation bed soils . International Journal of Engineering Science and Technology . 3 ( 2 ), pp. 788 – 796 . Search in Google Scholar

[18] Lam, C., Jefferis, S.A., Martin, C.M. (2014): Effects of polymer and bentonite support fluids on concrete–sand interface shear strength. Géotechnique, 64(1), pp. 28–39. Lam C. Jefferis S.A. Martin C.M. ( 2014 ): Effects of polymer and bentonite support fluids on concrete–sand interface shear strength . Géotechnique , 64 ( 1 ), pp. 28 – 39 . Search in Google Scholar

[19] Talefirouz, D., Cokça, E., Omer, J. (2016): Use of granulated blast furnace slag and lime in cement-bentonite slurry wall construction. International Journal of Geotechnical Engineering, 10(1), pp. 81–85. Talefirouz D. Cokça E. Omer J. ( 2016 ): Use of granulated blast furnace slag and lime in cement-bentonite slurry wall construction . International Journal of Geotechnical Engineering , 10 ( 1 ), pp. 81 – 85 . Search in Google Scholar

[20] Boscardin, M., Patterson, C., Landis, M., Younan, J. C., Aghjayan, D, (2006): Evaluation of permeability of containment slurry walls. In: GeoCongress 2006: Geotechnical Engineering in the Information Technology Age, DeGroot, D., DeJong, J., Frost, D., Baise, L. (eds.). American Society of Civil Engineers: Reston, Virginia, pp. 1–6. Boscardin M. Patterson C. Landis M. Younan J. C. Aghjayan D , ( 2006 ): Evaluation of permeability of containment slurry walls . In: GeoCongress 2006: Geotechnical Engineering in the Information Technology Age , DeGroot D. DeJong J. Frost D. Baise L. (eds.). American Society of Civil Engineers : Reston, Virginia , pp. 1 – 6 . Search in Google Scholar

[21] Oweis, I.S., Khera, R.P. (1990): Geotechnology of Waste Management. Butterworth-Heineman: Oxford, UK. Oweis I.S. Khera R.P. ( 1990 ): Geotechnology of Waste Management . Butterworth-Heineman : Oxford, UK . Search in Google Scholar