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Improve the Formation of Geopolymer Concrete Mixed with Seawater and Without Curing

Received: 27 June 2017     Accepted: 6 July 2017     Published: 30 October 2017
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Abstract

Geopolymer is a new trend in cement industry, traditional cement has prompted several problems related to health and environment due to cement dust and carbon dioxide. Geoplymer, however, has attenuated such problems due to the method of manufacturing and low emission of carbondioxide. This paper examines the ability to form geopolymer cement and the ability to use this cement in the formation of geopolymer concrete in the field. Various papers have been published with concern to the geopolymer cement set the curing in an oven is constraint to the geopolymer cement formation. During this paper are studied in air without any types of curing. Also the improvement of cement by meta koline as a source of aluminium and silica are studied. geopolymer cement based on the slag has been improved as it has been replaced with 10% metakoline. After optimizing the best mix of cement (slag and metakoline). The effect of geopolymer cement content is studied. Results have shown variation in compressive strength related directly to content of geoplymer strength. Water in geopolymer cement is not included in the reaction. So, throughout the paper the sea water is used as an alternative to fresh water. Results have shown an improvement in the compressive strength as compared to the presence of fresh water.

Published in American Journal of Civil Engineering (Volume 5, Issue 6)
DOI 10.11648/j.ajce.20170506.15
Page(s) 344-351
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2017. Published by Science Publishing Group

Keywords

Geopolymer Cement, Concrete, Ground-Granulated Blast-Furnace Slag, Metakoline, Compressive Strength

References
[1] Mehta P. K. “Greening of the Concrete Industry for Sustainable Development”, Concrete International (2002), 24 (7): pp. 23-28.
[2] Hardjito D, Wallah S. E, Sumajouw D. M. J. and Rangan B. V, “Factors Influencing the Compressive Strength of Fly ash-based Geopolymer Concrete”, Civil Engineering Dimension, Vol. 6, No. 2, pp. 88-93, September 2004.
[3] Salloum T, “Effect of Fly ash Replacement on Alkali and Sulphate Resistance of Mortars”, published master’s thesis, Department of Building, Civil and Environmental Engineering, Concordia University Montreal, Quebec, Canada, July 2007.
[4] Davidovits J, “Geopolymer chemistry & sustainable development. The Poly silicate terminology: a very useful and simple model for the promotion and understanding of green-chemistry”, Proceedings of the World Congress Geopolymer, Saint Quentin, France, 28 June – 1 July, 2005: pp. 9-15.
[5] Malhotra V. M, “Introduction: Sustainable Development & Concrete Technology”, Concrete International (2002), 24 (7): pp. 22.
[6] K. Parthiban, K. saravana raja mohan, S. Sobana, A. Anchal Bhaskar, “Effect of Replacement of Slag on the Mechanical Properties Of Fly ash based Geopolymer Concrete”, International Journal of Engineering and Technology (IJET), 2013, ISSN: 0975-4024, Page 2555-2559.
[7] Ganapati Naidu, A. S. S. N. Prasad, S. Adiseshu, P. V. V. Satayanara “A study on strength properties of Geopolymer Concrete with the addition of GGBS”, International Journal of Engineering Research and Development (IJERD), 2012 ISSN: 2278-800, Page 19-28.
[8] Partha Sarathi Deb, Pradip Nath, Prabir Kumar Sarker, “The Effects of GGBFS blending with Flyash and activator content on the workability and strength properties of Geopolymer concrete cured at ambient temperature ”, Material & design, 62 (2014), page 32-39.
[9] Pradip Nath, Prabirkumar Sarker “Effect of GGBFS on Setting, Workability and early Strength properties of flyash Geopolymer Concrete”, construction and building materials, 2014, 66, page 163-171.
[10] Vásquez, A, Cárdenas, V, Robayo, R. A, & de Gutiérrez, R. M. “Geopolymer based on concrete demolition waste” Advanced Powder Technology, 2016, 27 (4), 1173-1179.‏
[11] Panias, Dimitrios, Ioanna P. Giannopoulou, and Theodora Perraki. "Effect of synthesis parameters on the mechanical properties of fly ash-based geopolymers." Colloids and Surfaces A: Physicochemical and Engineering Aspects 301.1 (2007): 246-254.‏
[12] El-Sayed, H. A, Abo El-Enein, S. A, Khater, H. M. and Hasanein, S. A. “Resistance of alkali activated water cooled slag geopolymer to sulfate attack”, Ceramics-Silikáty, 2011, 55, 153-160.
Cite This Article
  • APA Style

    Abd Allah R. Abd EL-moatey, Ahmed S. Faried, Waleed H. Soufi, Magdy A. Abd El-Aziz. (2017). Improve the Formation of Geopolymer Concrete Mixed with Seawater and Without Curing. American Journal of Civil Engineering, 5(6), 344-351. https://doi.org/10.11648/j.ajce.20170506.15

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    ACS Style

    Abd Allah R. Abd EL-moatey; Ahmed S. Faried; Waleed H. Soufi; Magdy A. Abd El-Aziz. Improve the Formation of Geopolymer Concrete Mixed with Seawater and Without Curing. Am. J. Civ. Eng. 2017, 5(6), 344-351. doi: 10.11648/j.ajce.20170506.15

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    AMA Style

    Abd Allah R. Abd EL-moatey, Ahmed S. Faried, Waleed H. Soufi, Magdy A. Abd El-Aziz. Improve the Formation of Geopolymer Concrete Mixed with Seawater and Without Curing. Am J Civ Eng. 2017;5(6):344-351. doi: 10.11648/j.ajce.20170506.15

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  • @article{10.11648/j.ajce.20170506.15,
      author = {Abd Allah R. Abd EL-moatey and Ahmed S. Faried and Waleed H. Soufi and Magdy A. Abd El-Aziz},
      title = {Improve the Formation of Geopolymer Concrete Mixed with Seawater and Without Curing},
      journal = {American Journal of Civil Engineering},
      volume = {5},
      number = {6},
      pages = {344-351},
      doi = {10.11648/j.ajce.20170506.15},
      url = {https://doi.org/10.11648/j.ajce.20170506.15},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajce.20170506.15},
      abstract = {Geopolymer is a new trend in cement industry, traditional cement has prompted several problems related to health and environment due to cement dust and carbon dioxide. Geoplymer, however, has attenuated such problems due to the method of manufacturing and low emission of carbondioxide. This paper examines the ability to form geopolymer cement and the ability to use this cement in the formation of geopolymer concrete in the field. Various papers have been published with concern to the geopolymer cement set the curing in an oven is constraint to the geopolymer cement formation. During this paper are studied in air without any types of curing. Also the improvement of cement by meta koline as a source of aluminium and silica are studied. geopolymer cement based on the slag has been improved as it has been replaced with 10% metakoline. After optimizing the best mix of cement (slag and metakoline). The effect of geopolymer cement content is studied. Results have shown variation in compressive strength related directly to content of geoplymer strength. Water in geopolymer cement is not included in the reaction. So, throughout the paper the sea water is used as an alternative to fresh water. Results have shown an improvement in the compressive strength as compared to the presence of fresh water.},
     year = {2017}
    }
    

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  • TY  - JOUR
    T1  - Improve the Formation of Geopolymer Concrete Mixed with Seawater and Without Curing
    AU  - Abd Allah R. Abd EL-moatey
    AU  - Ahmed S. Faried
    AU  - Waleed H. Soufi
    AU  - Magdy A. Abd El-Aziz
    Y1  - 2017/10/30
    PY  - 2017
    N1  - https://doi.org/10.11648/j.ajce.20170506.15
    DO  - 10.11648/j.ajce.20170506.15
    T2  - American Journal of Civil Engineering
    JF  - American Journal of Civil Engineering
    JO  - American Journal of Civil Engineering
    SP  - 344
    EP  - 351
    PB  - Science Publishing Group
    SN  - 2330-8737
    UR  - https://doi.org/10.11648/j.ajce.20170506.15
    AB  - Geopolymer is a new trend in cement industry, traditional cement has prompted several problems related to health and environment due to cement dust and carbon dioxide. Geoplymer, however, has attenuated such problems due to the method of manufacturing and low emission of carbondioxide. This paper examines the ability to form geopolymer cement and the ability to use this cement in the formation of geopolymer concrete in the field. Various papers have been published with concern to the geopolymer cement set the curing in an oven is constraint to the geopolymer cement formation. During this paper are studied in air without any types of curing. Also the improvement of cement by meta koline as a source of aluminium and silica are studied. geopolymer cement based on the slag has been improved as it has been replaced with 10% metakoline. After optimizing the best mix of cement (slag and metakoline). The effect of geopolymer cement content is studied. Results have shown variation in compressive strength related directly to content of geoplymer strength. Water in geopolymer cement is not included in the reaction. So, throughout the paper the sea water is used as an alternative to fresh water. Results have shown an improvement in the compressive strength as compared to the presence of fresh water.
    VL  - 5
    IS  - 6
    ER  - 

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Author Information
  • Faculty of Engineering, Fayoum University, Fayoum, Egypt

  • Department of Civil Engineering, Faculty of Engineering, Fayoum University, Fayoum, Egypt

  • Housing and Building National Research Center (HBRC), Cairo, Egypt

  • Department of Civil Engineering, Faculty of Engineering, Fayoum University, Fayoum, Egypt

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