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Effect of Si antioxidant on the rate of oxidation of carbon in MgO-C refractory

Sadrnezhaad, S. K ; Sharif University of Technology | 2011

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  1. Type of Document: Article
  2. DOI: 10.5829/idosi.ije.2011.24.04b.06
  3. Publisher: Materials and Energy Research Center , 2011
  4. Abstract:
  5. Progressive conversion/shrinking core (PC-SC) models of constant-size cylinders were exploited to interpret the decarburization reactions of MgO-C-Si bricks heated up under blown air. Chemical adsorption/solid (or pore) diffusion mechanisms governed the reaction rate. With 5% silicon, chemical adsorption vanished at 1000 and 1100°C. The oxidation rate lowered then with temperature. This was due apparently to the blocking of the pore-end gorges by the voluminous compounds (like Forstrite). Arrhenius plots of the specific rates yielded the activation energies of the prevailing steps. Without Si antioxidant, three steps were appreciated having activation energies of 51.65 (for chemical adsorption), 125.75 (for solid-phase diffusion) and 9.08 KJ/mol (for pore diffusion). With 5 wt% silicon addition, two steps existed with activation energies of 51.65 (for chemical adsorption) and 134.59 KJ/mol (for solid-phase diffusion). These values were slightly lower than the corresponding activation energies reported earlier for MgO-C and MgO-C-Al systems. Small differences could apparently attribute to the tortuosity differences of the samples
  6. Keywords:
  7. Kinetics ; Oxidation ; Adsorption ; Arrhenius plots ; C (programming language) ; Diffusion ; Enzyme kinetics ; Reaction rates ; Refractory materials ; Silicon ; Antioxidant ; Chemical adsorption ; Diffusion mechanisms ; MgO-C ; MgO-C refractory ; Oxidation rates ; PC-SC ; Pore diffusion ; Refractory ; Silicon additions ; Solid-phase diffusion ; Activation energy
  8. Source: International Journal of Engineering, Transactions B: Applications ; Volume 24, Issue 4 , 2011 , Pages 357-366 ; 1728-144X (ISSN)
  9. URL: http://www.ije.ir/Vol24/No4/B/6.pdf