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LITERATURE CITED

  • 1
    Al-Jabri,K.S.,Taha,R.A.,Al-Hasmi,A., & Al-Harty,A.S.( 2006). Effect of copper slag and cement by-pass dust addition on mechanical properties of concrete. Construction and Building Materials, 20, 322331.
  • 2
    Batayneh,M.,Marie,I., & Asi,I.( 2007). Use of selected waste materials in concrete mixes. Waste Management, 27, 18701876.
  • 3
    Topçu,I.B., & Canbaz,M.( 2007). Effect of different fibers on the mechanical properties of concrete containing fly ash. Construction and Building Materials, 21, 14861491.
  • 4
    Gupta,V.K.,Gupta,M., & Sharma,S.( 2000). Process development for the removal of lead and chromium from aqueous solutions using red mud- an aluminum industry waste. Water Research, 35, 11251134.
  • 5
    Ismail,Z.Z., & Al-Hasmi,E.A.( 2008). Use of waste plastic in concrete mixture as aggregate replacement, Waste Management, 28, 20412047.
  • 6
    Penpolcharoen,M.( 2005). Utilization of secondary lead slag as construction material. Cement and Concrete Research, 35, 10501055.
  • 7
    Senthamarai,R.M., & Manoharan,P.D.( 2005). Concrete with ceramic waste aggregate. Cement and Concrete Composites, 27, 910913.
  • 8
    Chindaprasirt,P.,Homwuttiwong,S., & Jaturapitakkul,C.( 2007). Strength and water permeability of concrete containing palm oil fuel ash and rice husk-bark ash. Construction and Building Materials, 21, 14921499.
  • 9
    Valls,S., & Vazquez,E.( 2002). Leaching properties of stabilised/solidified cement-admixtures-sewage sludges systems. Waste Management, 22, 3745.
  • 10
    Duchesne,J., & Laforest,G.( 2004). Evaluation of the degree of Cr ions immobilization by different binders. Cement and Concrete Research, 24, 11731177.
  • 11
    Yalçin,S., & Kahraman,U.( 2006). Modelling chromium dissolution and leaching from chromite ore-processing residue. Environmental Engineering Science, 23, 187201.
  • 12
    Moon,D.H.,Dermates,D.,Chrysochoou,M., & ShenG.( 2006). An investigation of the heaving mechanism related to chromite ore processing residue. Journal of ASTM International, 3, 2332.
  • 13
    Tinjum,J.M.,Benson,C.H., & Edil,T.B.( 2008). Mobilization of Cr(VI) from chromite ore processing residue through acid treatment. Science of the Total Environment, 391, 1325.
  • 14
    Kalkan,E.( 2006). Utilization of red mud as a stabilization material for the preparation of clay liners. Engineering Jeology, 87, 220229.
  • 15
    Pera,J.,Boumaza,B.R., & Ambroise,J.( 1997). Development of a pozzolanic pigment from red mud. Cement and Concrete Research, 27, 15131522.
  • 16
    Singh,M., & Garg,M.( 1999). Cementitious binder from fly ash and other industrial wastes. Cement and Concrete Research, 29, 309314.
  • 17
    Tsakiridis,P.E.,Agatzini-Leonardou,S.,Oustadakis,P.( 2004). Red mud addition in the raw meal for the production of Portland cement clinker. Journal of Hazardous Materials, B116, 103110.
  • 18
    Çoruh,S.( 2008). Immobilization of copper flotation waste using red mud and clinoptilolite. Waste Management and Research, 26, 409418.
  • 19
    ASTM C 150. ( 2001). Standard specification for Portland cement,Annual Book of ASTM Standards 04.01, pp. 149155.
  • 20
    ASTM C 618. ( 2001). Standard specification for coal fly ash and raw or calcined natural pozzolan for use as a mineral admixture in concrete,Annual Book of ASTM Standards 04.02, pp. 310313.
  • 21
    ASTM C 403. ( 2001). Standard test method for time of setting of concrete mixtures by penetration resistance, Annual Book of ASTM Standards 04.02, pp. 222227.
  • 22
    U.S. Environmental Protection Agency (ed.). Stabilization/Solidification of CERCLA and RCRA wastes, EPA/625/6–89/022, May 1989.
  • 23
    Margui,E.,Salvado,V.,Queralt,I., & Hidalgo,M.( 2004). Comparison of three-stage sequential extraction and toxicity characteristic leaching tests to evaluate metal mobility in mining wastes. Analytica Chemistry Acta, 524, 151159.
  • 24
    U.S. Geological Survey. ( 2005). A simple field leach test to assess potential leaching of soluble constituents from mine wastes, soil and other geological materials: U.S. Geological Survey Fact Sheet, 3100:4.
  • 25
    Jong,T., & Parry,D.L.( 2005). Evaluation of the stability of arsenic immobilized by microbial sulfate reduction using TCLP extractions and long-term leaching techniques. Cemosphere, 60, 254265.
  • 26
    Jing,C.,Meng,X., & Korfiatis,G.P.( 2004). Lead leachability in stabilized/solidified soil samples evaluated with different leaching tests. Journal of Hazardous Materials, B114, 101110.
  • 27
    Ferreira,C.,Ribeiro,A., & Ottosen,L.( 2003). Possible applications for municipal solid waste fly ash. Journal of Hazardous Materials, B96, 201296.
  • 28
    Bouzoubaa,N.,Bilodeau,A.,Sivasundaram,V.,Fournier,B., & Golden,D.M.( 2004). Development of ternary blends of high-performance concrete. ACI Material Journal, 101, 1929.
  • 29
    Yang,J., & Xiao,B.( 2008). Development of unsintered construction materials from red mud wastes produced in the sintering alumina process, Construction and Building Materials, 22, 22992307.
  • 30
    Aydın,S., & Yiğiter,H.( 2006). Effects of Red mud on compressive strength and alkali-silica reaction expansion of mortar, Cement and Concrete World. Türkiye Çimento Müstasilleri Birliği yayınları (TÇMB), 11, 6067.
  • 31
    Tangchirapat,W.,Saeting,T.,Jaturapitakkul,C.,Kiattikomol,K., & Siripanichgorn,A.( 2007). Use of waste ash from palm oil industry in concrete. Waste Management, 27–81, 8188.
  • 32
    Çoruh,S.,Geyikçi,F.,Mesci,B.,Turan,G., & Ergun,O.N.( 2007). Heavy metal immobilization in the chromite ore processing solid waste using red mud, ISWA/NVRD World Congress, Amsterdam, Netherland.
  • 33
    Geelhoed,J.S.,Meeussen,J.C.L.,Hillier,S.,Lumsdon,D.G.,Thomas,R.P.,Farmer,J.G., & Paterson,E.( 2002). Identification and geochemical modelling of processes controlling leaching of Cr(VI) and other major elements from chromite ore processing residue. Geochimica et Cosmochimica Acta, 66, 32973942.
  • 34
    Chrysochoou,M., & Dermatas,D.( 2008). Application of the Rietveld method to assess chromium (VI) speciation in chromite ore processing residue. Journal of Hazardous Materials, 141, 370377.