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References
AASHTO (1986) Standard method of test. mineral filler for bituminous paving mixtures. AASHT00O Designation: M17-83, Part I Specifications, 14th Edition.
ACI Committee 229 (1999) Controlled low-strength materials. American Concrete Institute. Farmington Hills, USA, p. 15
Al-Harthy AS, Taha R, Al-Maamary F (2003) Effect of cement kiln dust (CKD) on mortar and concrete mixtures. Construction and Building Materials 17 (5): 353–360.
Amin AM, Ebied E, El-Didamony H (1995) Activation of granulated slag with calcined cement kiln dust. Silicates Industrial 60 (3–4): 109–115.
Anil M, Upadhyaya S, Gustin F, Roohanirad A, Stokes J (2005) Full-depth cold in-place recycling of asphalt pavements with self-cementing fly ash: Field and laboratory studies. World of Coal Ash 2005; Lexington, Kentucky, USA.
Baghdadi ZA (1990) Utilization of kiln dust in clay stabilization. Journal of Abdulaziz University: Engineering Science 2: 53–163.
Baghdadi ZA, Fatani MN, Sabban NA (1995) Soil modification by cement kiln dust. Journal of Materials in Civil Engineering 7 (4): 218–222.
Batis G, Rakanta E, Sideri E, Chaniotakis E, Papageorgiou A (2002) Advantages of simultaneous use of cement kiln dust and blast furnace slag. International Conference on Challenges of Concrete Construction. University of Dundee, Dundee, UK.
Bhatty MSY (1984) Use of cement kiln dust in blended cements. World Cement 15 (4): 126–128 and 131–134.
Bhatty MSY (1985) Use of cement kiln dust in blended cements – alkali-aggregate reaction expansion. World Cement 16 (10): 386–391.
Bhatty MSY (1986) Properties of blended cements made with Portland cement, cement kiln dust, fly ash, and slag. Proceedings of the International Congress on the Chemistry of Cement. Communications Theme-3, 1 (4): 118–127.
Ciesielski SK, Collins RJ (1994) Recycling and use of waste materials and by-products in highway construction. National Cooperative Highway Research Program Synthesis of Highway Practice 199, Transportation Research Board, Washington, DC.
Collins RJ, Emery JJ (1983) Kiln dust-fly ash systems for highways bases and sub-bases. Federal Highway Administration, Report No. FHWA/RD-82/167, Washington DC.
Corish A, Coleman T (1995) Cement kiln dust. Concrete 29 (5): 40–42.
Cross SA (1999) Experimental cold in-place recycling with hydrated lime. Transportation Research Record No. 1684, pp. 186–193.
Cross SA, Fager GA (1995) Fly ash in cold recycled bituminous pavements. Transportation Research Record No. 1486, pp. 49–56.
Duchesne J, Reardon EJ () Determining controls on element concentrations in cement kiln dust. Journal of Waste Management 18 (5): 339–350.
Dyer TD, Halliday JE, Dhir RK (1999) An investigation of the hydration chemistry of ternary blends containing cement kiln dust. Journal of Material Science 18 (5): 4975–4983.
Eary LE, Rai D, Mattifod SV, Ainsworth CC (1990) Geotechnical factors controlling the mobilization of inorganic constituents from fossil fuel combustion residues: Part II. Review of the minor elements. Journal of Environmental Quality 19: 202.
El-Didamony H, Ali AH, Sharara AM, Amin AM (1997) Assessment of cement dust with anhydrite as an activator for granulated slag. Silicates Industrial 62 (1–2): 31–35.
EL-Sayed HA, Gabr NA, Hanafi S, Mohran MA (1991) Reutilization of by-pass kiln dust in cement manufacture. International Conference on Blended Cement in Construction, Sheffield, UK.
Emery JJ (1981) Potential uses for kiln dusts. Proceedings ORF/CANMET Symposium on Mineral Fillers, Ontario Research Foundation and Canada Center for Mineral and Energy Technology, Toronto, Canada.
Environmental Protection Agency, US (1988) Report to congress: wastes from the combustion of coal by utility power plants. Office of Solid Waste and Emergency Response. EPA/530-SW-88-002.
Environmental Protection Agency, US (1993a) Report to congress on cement kiln dust. EPA-530-R-94-001, USA.
Environmental Protection Agency (1993b) Supplemental analysis on potential risks to human health and the environment from large-volume coal combustion waste.
Environmental Protection Agency (1995) Regulatory determination on cement kiln dust; Final Rule. Federal Register 60 (25): 7366–7376, USA.
Fatani MN, Khan AM (1990) Improvement of dune sand asphalt mixes for pavement bases. Journal of Abdulaziz University: Engineering Science 2: 39–47.
Gassman SL, Pierce CE, Schroder AJ (2001) Effects of prolonged mixing and retempering on properties of controlled low-strength material (CLSM). ACI Materials Journal 98 (2): 194–199.
Gebauer J (1981) Alkali in clinker: influence on cement and concrete properties. Proceedings of the 5th International Conference on Alkali-Aggregate in. Reaction in Concrete, Capetown, South Africa: 1–9.
Haynes BW, Kramer GW (1982) Characterization of US cement kiln dust. Bureau of Mines Information Circular 8885, US Department of the Interior, Pittsburgh, Pennsylvania.
Heikal M, Aiad I, Helmy MI (2002) Portland cement clinker, granulated slag and by-pass cement dust composites. Cement and Concrete Research 32 (11): 1805–1812.
Hoopes RJ (1988) Engineering properties of air-modified controlled low-strength materials. The Design and Application of Controlled Low-Strength Materials (Flowable Fill), ASTM STP 1331: 87–101.
Kamon M, Nontananandh S (1991) Combining industrial wastes with lime for soil stabilization. Journal of Geotechnical Engineering 117 (1): 1–17.
Katz A, Kovler K (2004) Utilization of industrial by-products for the production of controlled low-strength materials. Journal of Waste Management 24 (5): 501–512.
Kjellsen KO, Detwiler RJ, Gjorv OE (1992) Pore structure of plain cement pastes hydrated at different temperatures. Cement and Concrete Research 22 (1): 112–120.
Konsta-Gdoutos MS, Shah SP (2003) Hydration and properties of novel blended cements based on cement kiln dust and blast furnace slag. Cement and Concrete Research 33 (8): 1269–1276.
Kraszewski L, Emery J (1981) Use of cement kiln dust as filler in asphalt mixes. Proceedings ORF/CANMET Symposium on Mineral Fillers, Ontario Research Foundation and Canada Center for Mineral and Energy Technology, Toronto, Canada.
Malvar IJ, Cline D, Burke DF (2004) Preventing alkali-silica reaction. ASCE Conference Proceedings, pp.378–389.
Miller GA, Azad S (2000) Influence of soil type on stabilization with cement kiln dust. Construction and Building Materials 14 (2): 89–97.
Miller GA, Azad S, Dhar B (1997) The effect of kiln dust on the collapse potential of compacted shale. Testing soil mixed with waste or recycled materials, ASTM STP-1275: 232–245.
Miller GA, Zaman M (2000) Field and laboratory evaluation of cement kiln dust as a soil stabilizer. Transportation Research Record No. 1714: 25–32.
Morgan DS, Novoa JI, Halif AH (1984) Oil sludge solidification using cement kiln dust. Journal of Environmental Engineering, 110 (5): 935–948.
Murphy DT, Emery JJ (1996) Modified cold in-place asphalt recycling. Transportation Research Record No. 1545: 143–150.
Parsons T (1995) Kiln-dust-antistripping additives for aphaltic concrete mixtures. Report, Newfoundland Department of Works, Services and Transportation, Materials Engineering Division.
Pierce CE, Tripathi H, Brown TW (2003) Cement kiln dust incontrolled low-strength materials. ACI Material Journal 100 (6): 455–462.
Portland Cement Association (1992) 5420 Old Orchard Road, Skokie, IL 6–77, USA.
Ramakrishnan V (1986) Evaluation of kiln dust in concrete. ACI Special Publication (SP-91): 821–840.
Ramakrishnan V, Balaguru P (1987) Durability of concrete containing cement kiln dust. ACI Special Publication 100 (4): 305–322.
Reardon EJ, Czank CA, Warren CJ, Dayal R, Johnston HM (1995) Determining controls on element concentrations in fly ash leachate. Waste Management and Research 13:435.
Salem TH, Ragai MSh (2001) Electrical conductivity of granulated slag cement kiln dust-silica fume pastes at different porosities. Cement and Concrete Research 31 (5): 781–787.
Shi C (2001) Studies on several factors affecting hydration and properties of lime pozzolan cements. Journal of Materials in Civil Engineering 13 (6): 441–445.
Shoaib MM, Balaha MM, Abdel-Rahman AG (2000) Influence of cement kiln dust substitution on the mechanical properties of concrete. Cement and Concrete Research 30 (3): 371–337.
Taha R, Al-Rawas A, Al-Harthy A, Qatan A (2002) Use of cement bypass dust as filler in asphalt concrete mixtures. Journal of Materials in Civil Engineering 14 (4): 338–343.
Taylor H.FW (1997) Cement Chemistry. 2nd Edition, Thomas Telford, London.
Transportation Association of Canada (1996) Moisture damage of asphalt pavements and antistripping additives. Report Prepared by John Emery Geotechnical Engineering Limited for Transportation Association of Canada, Ottawa.
Verbeck GJ, Helmuth RH (1968) Structures and physical properties of cement paste. Proceedings of the 5th International Symposium on the Chemistry of Cements, Tokyo, pp. 1–32.
Wang K, Shah SP, Mishulovich A (2004) Effects of curing temperature and NaOH addition on hydration and strength development of clinker-free fly ash binders. Cement and Concrete Research 34 (2): 299–309.
Wood LE, White TD, Nelson TB (1988) Current practice of cold in-place recycling of asphalt pavements. Transportation Research Record No. 1178: 31–37.
Zaman M, Lagurous JG, Sayah A (1992) Soil stabilization using cement kiln dust. Proceedings of the 7th International Conference on Expansive Soils. Dallas, TX, pp. 347–351.
Zaman M, Zhu JH, Laguros JG (1999) Durability effects on resilient moduli of stabilized aggregate base. Transportation Research Record No. 1687: 29–38.
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Siddique, R. (2008). Cement Kiln Dust. In: Waste Materials and By-Products in Concrete. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-74294-4_11
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