S. Zhang et We. Lee, Influence of additives on corrosion resistance and corroded microstructures of MgO-C refractories, J EUR CERAM, 21(13), 2001, pp. 2393-2405
Corrosion resistance and corroded microstructures of MgO- C refractories co
ntaining various antioxidants in a model EAF slag (CaO/SiO2 weight ratio =
1.38) were investigated after 30 h at 1650 degreesC. Antioxidants influence
d their corrosion resistance by affecting both carbon (C) oxidation and MgO
dissolution in the slag. Al additions improved C oxidation resistance at 1
650 degreesC only a little, but accelerated MgO dissolution, resulting in a
minor effect on corrosion resistance. Additions of Si or Al + Si improved
C oxidation resistance slightly but accelerated MgO dissolution more than A
l additions, resulting in worse corrosion resistance than Al addition and n
o addition. B4C conferred the worst corrosion resistance, since boron-conta
ining liquid formed in the refractory, greatly accelerating MgO dissolution
and resulting in C (mainly graphite) in the matrix being eroded easily by
the slag. With double addition of Al + B4C, boron-containing liquid formed,
which not only inhibited effectively C (mainly graphite) oxidation, but al
so accelerated formation and growth of MgAl2O4 spinet (MA) crystals between
graphite in the matrix at the test temperature. In this case, even though
MgO dissolution was accelerated to some extent, graphite was not easily was
hed away by the slag because it was effectively protected from oxidation an
d held in place by MA crystals. This maintained the integrity of the refrac
tory texture, giving the Al + B4C containing refractory the best corrosion
resistance. (C) 2001 Elsevier Science Ltd. All rights reserved.