1. GUNARATNE, M.,(2006), The foundation engineering handbook, Taylor and Francis Group, CRC Press. [
DOI:10.1201/9780203484418]
2. ARDESTANI, P.,(2008), Environmental effects of using nanosilica in concrete, M.Sc. Thesis, KNT University of Technology, Tehran, Iran. (in Persian)
3. Fertu, T. and Gavrilescu, M.,(2012), application of natural zeolites as sorbents in the clean-up of aqueous streams, Journal of Environmental Engineering and Management, 11(1), p. 867-878. [
DOI:10.30638/eemj.2012.110]
4. RIBERIO, F. RADRIGUES, L. and CLAUDE, N.,(1984), Zeolites science and technology, Boston, Martinus Nijhoff Publishers.
5. KADHIM, F. and ZHENG, J.,(2016), Review of the factors that influence on the microbial induced calcite precipitation, Journal of Civil and Environmentl Research, 8(12), p. 69-76.
6. DEJONG, J. FRITZGES, M. and NUSSlEIN, K.,(2006), Microbially induced cementation to control sand response to undrained shear, Journal of Geotechnical and Geoenvironmental Engineering, 132(11), p. 1381-1392. [
DOI:10.1061/(ASCE)1090-0241(2006)132:11(1381)]
7. MODOLO, LV. DE SOUZA, A. HORTA, LP. ARAUJO, D. DE FATMA, A.,(2015), An overview on the potential of natural products as ureases inhibitors: a review. Journal of Advance Research, 6, p. 35-44. [
DOI:10.1016/j.jare.2014.09.001]
8. WHIFFIN, V.,(2004), Microbial CaCO3 precipitation for the production of biocement, School of Biological Sciences and Biotechnology, Murdoch University, Perth, Western Australia, p. 154-163.
9. KRAJEWSKA, B.,(2018), Urease-aided calcium carbonate mineralization for engineering applications: A review, Journal of Advance Research, 13, p. 59-67. [
DOI:10.1016/j.jare.2017.10.009]
10. DEJONG, J. MORTENSEN, B. MARTINEZ, B. and NELSON, D.,(2010), Bio-mediated soil improvement, Journal of Ecological Engineering, 36(2), p. 197-210. [
DOI:10.1016/j.ecoleng.2008.12.029]
11. VAN PAASSEN, L.,(2006), Ground improvement by microbially induced carbonate precipitation, Delft University of Technology.
12. LARSSON, S. and AXELSOON, M.,(2012), Stabilization of frictional soil through injection using CIPS, Master of Science Thesis, Division of Soil and Rock Mechanics, KTH Royal Institute of Technology Stockholm.
13. MURRAY, R. GRANNER, D. MAYES, P. and RODWELL, V.,(2003), Harper's illustrated biochemistry, McGraw-Hil Co. Inc., US, p. 60-71.
14. MOLLA ABBASI, H. and SHOOSH PASHA, I.,(2016), Investigation of the effect of zeolite on Babolsar sandy soil strength, cement-stabilized using uniaxial compressive strength test, Journal of Civil Engineering, Tarbiat Modares University, 4(16), p. 203-213. (In Persian)
15. ABBASI, M. SHOOSH PASHA, I. and MOLLA ABBASI, H.,(2018), Investigation of the effect of zeolite on shear strength of Babsalar sand, stabilized by cement, Journal of Civil and Environmental Engineering, Tabriz University, 1(49), p. 89-96. (In Persian)
16. ABBASI, M. SHOOSH PASHA, I. and MOLLA ABBASI, H.,(2018), Investigation of the effect of zeolite on tensile strength of sandblasted Babolsar sand cement, Journal of Civil Engineering, Sharif University, 1(33), pp. 117-120. (In Persian)
17. ABBASI, M.,(2014), Study of zeolite on tensile strength of Babolsar sandy soils, M.Sc Thesis, Mazandaran Institute of Higher Industrial Education. (in Persian)
18. DEMIRBAS, G.,(2009), Stabilization of expansive soils using bigadic zeolite, PhD Thesis, University of METU, Ankara, Turkey.
19. RAKESH, V. SHWETANK, R. CHINMAYEE, R. LOKENDRA, P. and MAYUR, R.,(2017), Stabilisation of black cotton soil using sawdust and cement, IJSRD - International Journal for Scientific Research and Development, 5(9), p. 728-731.
20. MORAVEJ, S. HABIB AGHAHI, G. NIKOOEE, E. and NIYAZI, A.,(2018), Stabilization of dispersive soils by means of biological calcite precipitation, Geoderma, 315, p. 130-137. [
DOI:10.1016/j.geoderma.2017.11.037]
21. WHIFFIN, V. VAN PAASSEN, L. and HARKES, M.,(2007), Microbial carbonate precipitation as a soil improvement technique, Geomicrobiology Journal, 24(5), p. 417-423. [
DOI:10.1080/01490450701436505]
22. PARK, S.,(2011), Unconfined compressive strength and ductility of fiber-reinforced cemented sand, Construction and Building Materials, 25(31), p. 1134-1138. [
DOI:10.1016/j.conbuildmat.2010.07.017]
23. Annual book of ASTM C136 standards.,(2012), Standard test method for sieve analysis of fine and coarse aggregates. American Society for Testing and Materials, West Conshohocken.
24. Annual book of ASTM D2487 standards.,(2012), Standard test method for sieve analysis of fine and coarse aggregates. American Society for Testing and Materials, West Conshohocken.
25. Annual book of ASTM D698 standards.,(2012), Standard test methods for laboratory compaction characteristics of soil. American Society for Testing and Materials, West Conshohocken.
26. Annual book of ASTM D4253 standards.,(2012), Standard test methods for minimum index density and unit weight of soils and calculation of relative density. American Society for Testing and Materials, West Conshohocken.
27. Annual book of ASTM D4254 standards.,(2012), Standard test methods for maximum index density and unit weight of soils and calculation of relative density. American Society for Testing and Materials, West Conshohocken.
28. Annual book of ASTM D854 standards.,(2012), Standard test for specific gravity of soil solids by water pycnometer. American Society for Testing and Materials, West Conshohocken.
29. MAZZEI, L. MUSIANI, F. CIURLI, S.,(2017), The biological chemistry of nickel, Urease. Royal Society of Chemistry, Metallobiology, p. 60-97.
30. Annual book of ASTM D2166 standards.,(2012), Standard test method for unconfined compressive strength of cohesive soil. American Society for Testing and Materials, West Conshohocken.