This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Ahmad S., Husain S.M.A., Ahmad S. (2015). Stabilization of low shear strength soil by using fly ash. IOSR Journal of Mechanical and Civil Engineering, 12(4, Ver. VI), 33–36.AhmadS.HusainS.M.A.AhmadS.2015Stabilization of low shear strength soil by using fly ash124Ver. VI3336Search in Google Scholar
Aziz E.S.M.A., Zeid M.M.A., Mahmoud M.A., Shahat W.M. (2017). Effect od cement kiln dust on the engineering properties of Sabkha soil. International Journal of Engineering Science and Computing, 7(10), 15206–15210.AzizE.S.M.A.ZeidM.M.A.MahmoudM.A.ShahatW.M.2017Effect od cement kiln dust on the engineering properties of Sabkha soil7101520615210Search in Google Scholar
Ćwiąkała M., Korzeniowska J., Kraszewski C., Widuch A. (2012). Soil stabilization with the use of hydraulic road binders on the basis of brown coal fly ash. Roads and Bridges, 11, 195–214.ĆwiąkałaM.KorzeniowskaJ.KraszewskiC.WiduchA.2012Soil stabilization with the use of hydraulic road binders on the basis of brown coal fly ash11195214Search in Google Scholar
Miller G.A., Azad S. (2000). Influence of soil type on stabilization with cement kiln dust. Construction and Building Materials, 14, 89–97.MillerG.A.AzadS.2000Influence of soil type on stabilization with cement kiln dust14899710.1016/S0950-0618(00)00007-6Search in Google Scholar
Ozdemir M.A. (2016). Improvement in bearing capacity of a soft soil by addition of fly ash. Procedia Engineering, 143, 498–505.OzdemirM.A.2016Improvement in bearing capacity of a soft soil by addition of fly ash14349850510.1016/j.proeng.2016.06.063Search in Google Scholar
Rahman M.K., Rehman S., Al-Amoudi O.S.B. (2011). Literature review on cement kiln dust usage in soil and waste stabilization and experimental investigation. IJRRAS, 7(1), 77–87.RahmanM.K.RehmanS.Al-AmoudiO.S.B.2011Literature review on cement kiln dust usage in soil and waste stabilization and experimental investigation717787Search in Google Scholar
Rimal S., Poudel R.K., Gautam D. (2018). Case Studies in Construction Materials, 1–7.RimalS.PoudelR.K.GautamD.201817Search in Google Scholar
Sreekrishnavilasam A., Rahadja S., Kmetz R., Santagata M. (2007). Soil treatment using fresh and landfield cement kiln dust. Construction and Building Materials, 21, 318–327.SreekrishnavilasamA.RahadjaS.KmetzR.SantagataM.2007Soil treatment using fresh and landfield cement kiln dust2131832710.1016/j.conbuildmat.2005.08.015Search in Google Scholar
Tangri A., Rashid Z.B., Bhamra P.S. (2017). Effect of cement kiln dust and fly ash on the Unconfined Compressive Strength of clayey soil. International Journal of Recent Engineering Research and Development, 2(4), 23–27.TangriA.RashidZ.B.BhamraP.S.2017Effect of cement kiln dust and fly ash on the Unconfined Compressive Strength of clayey soil242327Search in Google Scholar
Prędka S. (2018). Wpływ dodatku drobnego pyłu klinkierowego na parametry wytrzymałościowe wybranego gruntu drobnoziarnistego (The effect of the cement kiln dust addition on the strength parameters of the selected fine grained soil. Master thesis, Silesian University of Technology). Poland, Gliwice.PrędkaS.2018Master thesisSilesian University of TechnologyPoland, GliwiceSearch in Google Scholar
Kowalski A. (2018). Wpływ dodatku popiołu lotnego z Bełchatowa na parametry wytrzymałościowe wybranego gruntu drobnoziarnistego (The effect of the fly ash from Bełchatów addition on the strength parameters of the selected fine grained soil. Master thesis, Silesian University of Technology). Poland, Gliwice.KowalskiA.2018Master thesisSilesian University of TechnologyPoland, GliwiceSearch in Google Scholar
Giergiczny Z. (2006). Rola popiołów lotnych wapniowych i krzemionkowych w kształtowaniu właściwości współczesnych spoiw budowlanych i tworzyw cementowych (The role of calcium and silicous fly ash in the formulation of modern binders and cementous materials’ properties). Cracow: Politechnika Krakowska.GiergicznyZ.2006CracowPolitechnika KrakowskaSearch in Google Scholar
Filipiak J. (2011). Popiół lotny w budownictwie. Badania wytrzymałościowe gruntów stabilizowanych mieszanką popiołowo-cementową (Fly ash in construction industry. Strength tests of soil stabilized with mixture of ash and cement). Rocznik Ochrona Środowiska, 13, 1043–1054.FilipiakJ.2011Popiół lotny w budownictwie. Badania wytrzymałościowe gruntów stabilizowanych mieszanką popiołowo-cementową (Fly ash in construction industry. Strength tests of soil stabilized with mixture of ash and cement)1310431054Search in Google Scholar
Giergiczny Z. (2013). Popiół lotny w składzie cementu i betonu (Fly ash in cement and concrete composition). Gliwice: Wydawnictwo Politechniki Śląskiej.GiergicznyZ.2013GliwiceWydawnictwo Politechniki ŚląskiejSearch in Google Scholar
Kumar A., Singh A.K. (2017). Stabilization of soil using Cement Kiln Dust. International Journal of Innovative Research in Science, Engineering and Technology, 6(6), 11631–11637.KumarA.SinghA.K.2017Stabilization of soil using Cement Kiln Dust661163111637Search in Google Scholar
Mosa A.M., Taher A.H., Al-Jaberi L.A. (2017). Improvement of poor subgrade soils using cement kiln dust. Case Studies in Construction Materials, 7, 138–143.MosaA.M.TaherA.H.Al-JaberiL.A.2017Improvement of poor subgrade soils using cement kiln dust713814310.1016/j.cscm.2017.06.005Search in Google Scholar
Capotosto A. (2014). Physical and mechanical characterization of lime treated soils in saturated and unsaturated states (PhD thesis, Univeristy of Cassino and Southern Lazio). Cassino, Italy.CapotostoA.2014PhD thesisUniveristy of Cassino and Southern LazioCassino, ItalySearch in Google Scholar
Vitale E. (2016). Chemo-physical evolution of hydromechanical behaviour of lime treated clays (PhD thesis, Univeristy of Cassino and Southern Lazio). Cassino, Italy.VitaleE.2016PhD thesisUniveristy of Cassino and Southern LazioCassino, ItalySearch in Google Scholar