References
- Arm, M., 2003. Mechanical properties of residues as unbound road materials – experimental tests on MSWI bottom ash, crushed concrete and blast furnace slag, Thesis (PhD). Royal Institute of Technology, Stockholm
- Becquart , F. 2009 . Monotonic aspects of the mechanical behaviour of bottom ash from municipal solid waste incineration and its potential use for road construction . Waste Management , 29 : 1320 – 1329 .
- Bhuiyan , J.U. , Little , D.N. and Graves , R.E. 1995 . “ Evaluation of calcareous base course materials stabilized with low percentage of lime in south Texas ” . In Transportation research record: Journal of the Transportation Research Board , No. 1486 77 – 87 . Washington, DC : Transportation Research Board of the National Academies .
- Chang , T.D. 1995 . “ Resilient properties and microstructure of modified fly ash-stabilization fine grained soils ” . In Transportation research record: Journal of the Transportation Research Board , No. 1486 88 – 96 . Washington, DC : Transportation Research Board of the National Academies .
- Dawson , A. , Thom , N.H. and Paute , J.L. 1996 . “ Mechanical characteristics of unbound granular materials as a function of condition ” . In Flexible pavements, Proceedings of the European Symposium on Euroflex , Edited by: Correia , A.G. 35 – 44 . Rotterdam : Balkema .
- Demars , K.R. , Long , R.P. and Lentz , D.J. 1994 . “ Performance of incinerator bottom ash as a structural fill ” . In Presented at 73th Annual Meeting of Transportation Research Board of the National Academies Washington, DC
- Federal Highway Administration (FHWA), TP46 . 1996 . “ Resilient modulus of unbound granular base/subbase materials and subgrade soils ” . Washington, DC : U.S. Department of Transportation, Federal Highway Administration .
- Hicks , R.G. and Monismith , C.L. 1971 . Factors influencing the resilient response of Granular materials . Highway Research Record , 345 : 15 – 31 .
- Krzanowski , J.E. 1998 . An analytical electron microscopy investigation of municipal solid waste incineration bottom ash . Journal of Materials Research , 13 ( 1 ) : 28 – 36 .
- Marasteanu, M., et al., 2005. Preliminary laboratory investigation of enzyme solutions as a soil stabilizer, Report, Minnesota Department of Transportation, Research Services Section, Minnesota
- Pandeline , D.A. 1997 . “ Shear and deformation characteristics of municipal waste combustor bottom ash for highway applications ” . In Transportation research record: Journal of the Transportation Research Board , No. 1557 101 – 108 . Washington, DC : Transportation Research Board of the National Academics .
- Scholen, D.E., 1992. Nonstandard stabilizers, Report FHWA-FLP-92-011 US Department of Transportation
- Seed , H.C. , Chan , C.K. and Lee , C.E . 1962 . “ Resilient characteristics of subgrade soils and their relation to fatigue failures in asphalt pavements ” . In Proceedings of the international conference on the Structural Design of Asphalt Pavements University of Michigan
- Tolleson, A.R., et al., 2003. An evaluation of strength change on subgrade soils stabilized with an enzyme catalyst solution using CBR and SSG comparisons, Final Report of University Transportation Centre, Orangeburg, SC, USA
- Velasquez , R. , Marasteanu , M. and Hozalski , R. 2006 . Investigation of the effectiveness and mechanisms of enzyme products for subgrade stabilization . International Journal of Pavement Engineering , 7 ( 3 ) : 213 – 220 .
- Worthington, V., 2009. Introduction to enzymes, Available online at: http://www.worthington-biochem.com/introbiochem/Enzymes.pdf
- Wright-Fox, R., Macfarlane, J.G. and Bibbens, R.F., 1993. Alternate chemical soil stabilizers, Minor Research Report. CalTrans