• Title of article

    A STUDY ON THE MECHANICAL ACTIVATION OF EGYPTIAN SLAG

  • Author/Authors

    ABDELALIM, A.M.K. Banha University - Faculty of Engineering, Egypt , ABDELAZIZ, G.E. Banha University - Faculty of Engineering - Civil Engineering Department, Egypt , RAMADAN, M.O. Banha University - Faculty of Engineering - Civil Engineering Department, Egypt , AHMED, H.I Banha University - Faculty of Engineering - Civil Engineering Department, Egypt

  • From page
    223
  • To page
    241
  • Abstract
    This article reports the results of an investigation on the microstructure related characteristics and compressive strength of OPC matrix incorporating an activated local by-product slag that is cooled by either water or air. Both types of slag water-cooled slag WCS and air-cooled slag ACS were mechanically activated through definite grinding procedures to produce slag with various finenesses 0.5, 2.0 and 3.3 m^2/g. The impacts of mechanical activation extent fineness and content of slag on: 1) the microstructure, 2) sorptivity and 3) compressive strength of OPC mortars were examined and then compared, using thermo-gravimetric analysis, de-sorption, sorptivity and compressive strength approaches, respectively. Eleven OPC paste mixes and Eleven OPC mortar mixes were therefore prepared, using different slag contents 0, 20, 35 and 50%, by mass of OPC. The mechanical activation of the local byproducts slag has led to significant improvements in the microstructure, sorptivity and compressive strength of OPC matrix. These improvements are mainly dependent on the content of slag. It was found that the proper content of WCS or ACS to be considered in OPC mixes was about 20%, by cement mass. It is also suggested that cooling of local slag using water is a more appropriate approach than cooling of slag in air.
  • Keywords
    Slag , activation , pore structure , hydration , sorptivity.
  • Journal title
    Journal of Engineering and Applied Science
  • Journal title
    Journal of Engineering and Applied Science
  • Record number

    2588005