Stručni rad

Effect of TiO₂ on the Sintering Process of Magnesium Oxide from Seawater

V. Martinac ; Kemijsko-tehnološki fakultet u Splitu, Split, Hrvatska
M. Labor ; Kemijsko-tehnološki fakultet u Splitu, Split, Hrvatska
J. Jakić ; Kemijsko-tehnološki fakultet u Splitu, Split, Hrvatska
N. Petric ; Kemijsko-tehnološki fakultet u Splitu, Split, Hrvatska

Sažetak

This study examines the effect of the addition of TiO₂ on the properties of magnesium oxide obtained from seawater by substoichiometrical precipitation with 80 % of the stoichiometrically required quantity of dolomite lime as the precipitation agent. Magnesium oxide obtained from seawater by substoichiometrical precipitation contains boron(III) oxide as an impurity.

During the precipitation of magnesium hydroxide, the boron present in seawater (in the form of non-dissociated orthoboric acid H₃BO₃, and partly as borate ion H₂BO₃ –) adsorbs onto the magnesium hydroxide precipitate, and therefore has to be reduced as much as possible using the appropriate method of rinsing the magnesium hydroxide precipitate. B₂O₃ is an undesirable admixture in seawater magnesium oxide. Specifically, the properties of special purpose magnesium oxide, i. e. high strength magnesium oxide, are affected significantly by the content of boron in the product. Good quality sintered magnesium oxide contains a very small amount of B₂O₃. The impurity should not exceed w(B₂O₃) = 0.005 % in refractory magnesium oxide.
The combined method of rinsing the magnesium hydroxide precipitate (3+2) was used in sample preparation, i. e. rinsing by decanting was done three times with alkalized distilled water of pH = 12.50 and twice with distilled water of pH = 6.74. Multiple rinsing on filter paper (five times) was done using the same rinsing agent (fresh distilled water of pH = 6.74). The MgO (80 % precipitation) samples were then subjected to isothermal and activated sintering without TiO₂ addition, as well as with the addition of TiO₂, w(TiO₂) =5 and 8 %, at the temperature of 1700 oC for 1 hour, with the aim of determining the properties of these samples primarily with regard to the B2O3content in the samples after sintering. The results indicate that the addition of TiO₂ strongly affects the reduction of the B₂O₃ content during activated sintering of seawater magnesium oxide, and that the samples can be characterized as refractory material with very low B₂O₃ content. The addition of TiO₂, w(TiO₂)=5 %, is sufficient to bind the present CaO and thereby lead to greater evaporation of B₂O₃ in the process of activated sintering of seawater magnesium oxide. The samples thickened significantly during sintering, i. e. all the samples examined had a very small amount of open pores.

Ključne riječi

TiO₂; Magnesium Oxide from Seawater; Sintering Process

Hrčak ID:

60163

URI

https://hrcak.srce.hr/60163

Datum izdavanja:

5.11.2010.

Podaci na drugim jezicima: hrvatski

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