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Elaboration and Physico-Mechanical Characterization of a New Eco-Mortar Composite Based on Magnetized Water and Fly Ash

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This study examines the flexural strength and compressive strength of the mortars, which were mixed with the electromagnetic field treated water (EMFTW) and contained fly ash. EMFTW was obtained by passing the tap water through an electromagnetic field. The test variable was the fly ash content in place of cement and the water treated with EMFTW in place of the tap water. The results show that the flexural and compressive strength of the mortar samples mixed with MFTW is 12.56% and 15.8% higher than that prepared with the tap water, respectively. It was also found that the magnetized water improves the resistance to bending and compression by 12.67% and 4.35% to that prepared with the tap water and 10% fly ash instead of cement.
Rocznik
Strony
245--254
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
  • Department of Chemistry, Physical Chemistry Laboratory Applied Materials, Faculty of Sciences-Ben M’sik, Hassan II University, Casablanca, Morocco
  • Department of Physic condensed Matter Laboratory, Faculty of Sciences, ChouaibDoukkali University, El Jadida, Morocco
  • Department of Physic condensed Matter Laboratory, Faculty of Sciences, ChouaibDoukkali University, El Jadida, Morocco
  • Department of Chemistry, Laboratory of Interface Materials Environment, Faculty of Sciences-Aïn Chock, Hassan II University, Casablanca, Morocco
autor
  • University of Carthage, Laboratory of Environmental Sciences and Technologies, Higher Institute of Scences and Technology of Environment, Tunisia
  • Department of Physic condensed Matter Laboratory, Faculty of Sciences, ChouaibDoukkali University, El Jadida, Morocco
  • Laboratory of Nernest Technology, 163 Willington Street, Sherbrook, J1H5C Quebec, Canada
  • Agronomy Dept., Agric. and Biol. Div., National Research Centre, El-Bohoth St., 12622 Dokki, Cairo, Egypt
  • Department of Physic condensed Matter Laboratory, Faculty of Sciences, ChouaibDoukkali University, El Jadida, Morocco
  • Department of Chemistry, Physical Chemistry Laboratory Applied Materials, Faculty of Sciences-Ben M’sik, Hassan II University, Casablanca, Morocco
Bibliografia
  • 1. Aarfane A., Salhi A., El Krati M., Tahiri S., Monkade M., Lhadi E.K., Bensitel M. 2014. Kinetic and thermodynamic study of the adsorption of Red195 and Methylene blue dyes on fly ash and bottom ash in aqueous medium. J. Mater. Environ. Sci., 5(6), 1927-1939.
  • 2. Adamiec P., Benezet J.C, Benhassaine A. 2005. Relationship between a silico-aluminous fly ash and its coal. Ecole des Mines d´Alès 6, Avenue de Clavières 30319 ALES Cedex.
  • 3. Afshin H., Gholizadeh M., Khorshidi N. 2010. Improving mechanical properties of high strength concrete by magnetic water technology. Scientia Iranica, Transaction A: Civil Engineering, 17, 74-79.
  • 4. Borowski G. and Hycnar J.J. 2016. The effect of granulated fly ashes with phosphogypsum on the hardening of cement mortar. Technical Transactions – Civil Engineering, 113, 2-B(7), 37-45.
  • 5. Fan M., Brown R., Wheelock T.D., Cooper A.T., Nomura M., Zhuang Y. 2005. Production of a complex coagulant from fly ash. Chem. Eng. J., 106, 269–277.
  • 6. Graich A., Bellarbi A., Khaidar M., Monkade M., Laamyem A., Rhanim H., Zradba A.2020. Stabilization/solidification by Portland cement of sludge as a residue of filtered waste water from a cardboard plant. Journal of Hazardous, Toxic, and Radioactive Waste, DOI: 10.1061/(ASCE)HZ.2153445 5515.0000506.
  • 7. Helmuth R. 1987. Cendres volantes dans le ciment et le béton. Portland Cement Association, Illinois.
  • 8. Joshi K.M. and Kamet P.V.1966. Effect of magnetic field on the physical properties of water. J.Ind. Chem.Soc. 43, 620-622.
  • 9. Ma A-T. 2007. Effect of magnetic water on engineering properties of self-compacting concrete with waste catalyst. A thesis submitted to institue of construction Engineering National Yunlin University of science and Technology in Partail Fulfillment of the Requirement for degree of Master of design in Construction Engineering Taiwan-Republic of China.
  • 10. Madsen H.E.L. 2004. Crystallization of calcium carbonate in magnetic field in ordinary and heavy water. Journal of Crystal Growth, 267(1-2), 251–255.
  • 11. Manjupriya T. and Malathy R. 2016. Experimental investigation on strength and shrinkage properties of concrete mixed with magnetically treated water. International Journal of Engineering and Advanced Research Technology, 2(3), 46-50.
  • 12. Mehta P.K. 1986. Concrete Structure, propriétés et matériaux. Prentice-Hall Inc, falaises d’Englewood (NJ).
  • 13. Mghaiouini R., Elaoud A., Garmim T., Belghiti M.E., Valette E., Faure C.H., Hozayn M., Monkade M., El Bouari A. 2020. The electromagnetic memory of water at kinetic condition. International Journal of Current Engineering and Technology, 11-18, DOI: https://doi.org/10.14741/ijcet/v.10.1.3
  • 14. Mghaiouini R., Graich A., Elaoud A., Garmim T., Belghiti M.E., Benzbiria N., Hozayn M., Monkade M., El Bouari A. 2020. Formulation and physico-mechanical characterization of an eco-mortar composite based on bottom ash and magnetized water. Indian Journal Science and Technology, DOI: 10.17485/ijst/2020/v13i01/000000
  • 15. Mghaiouini R., Elaouad A., Taimourya H., Sabir I., Chibi F., Hozayn M., Garmim T., Nmila R., Rchid H., Monkade M., El Bouari A. 2020. Influence of the electromagnetic device on water quality and germination of lettuce (Lactuca sativa L.). International Journal of Current Engineering and Technology, 10(1), DOI: 10.14741/ijcet/v.10.1.4.
  • 16. Moufti A. 2003. Doctoral thesis. Faculty of Sciences, Chourai Doukkali University, El Jadida, Morocco.
  • 17. Nan S. and Wu C-F. 2003. Effect of magnetic field treated water on mortar and concrete containing fly ash. Cement & Concrete Composites, 25, 681–688.
  • 18. Pang X-F. and Zhu X-C. 2013. The magnetization of water arising from a magnetic-field and its applications in concrete industry. International Journal of Engineering Research and Applications, 3(5), 1541-1552.
  • 19. Pradnya U., Rahul D., Abhijeet P. 2016. Wadekar, performance evaluation of magnetic field treated water on convectional concrete containing fly ash. International Journal of Science Technology and Management, 5(2), 68-77.
  • 20. Saddam M. and Ahmed M. 2014. Effect of magnetic water on engineering properties of concrete. AlRafedain Engineering, 17(1), 77-82.
  • 21. Siva Konda Reddy B., Vaishali G., Sudarsana Rao H. 2013. Effect of Magnetic Field Exposure Time on Workability and Compressive Strength of Magnetic Water Concrete. International Journal of Advanced Engineering Technology, 4, 120-122.
  • 22. Soto-Bernal J.J., Gonzalez-Mota R., Rosales-Candelas I., Ortiz-Lozano J.A. 2015. Effects of static magnetic fields on the physical, mechanical, and microstructural properties of cement pastes. Advances in Materials Science and Engineering, http://dx.doi.org/10.1155/2015/934195.
  • 23. Su N., Wu Y., Mar C. 2000. Effect of magnetic water on the engineering properies of concrete containing granulated blast-furnace slage. Cement and Concrete Research, 30(4), 599-605.
  • 24. Taylor H.F.W. 1986. Proposed structure for calcium silicate hydrate Gel. J. Am. Ceram. Soc., 69, 464-467.
  • 25. UN Water Statistics 2014. The United Nations Inter-Agency Mechanism on all Freshwater Related Issues, Including Sanitation (available at: http://www.unwater.org/statistics/en/).
  • 26. Yu Q., Sugita S., Sawayama K., Soijma Y. 1998. Effect of electronic water hardening and electronic hardening on concrete resistance. Cem. Concret Res., 28, 1201-1208.
  • 27. Zalaghi A., Lamchouri B., Toufik H., Merzoukia M. 2018. Valorization of natural porous materials in the treatment of leachate from the landfill uncontrolled city of Taza. Journal of Materials and Environmental Science, 5(5), 1643-1652.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3fdbd824-09b5-4628-984a-d6b3bb360c58
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