O. I. Eliseeva scite author profile

The corrosion behavior of dispersion-strengthened ferritic steel in oxygencontaining lead melt is investigated at 550 and 650°C. It is determined that duplex magnetite scale is formed on the steel surface at 550°C and oxygen concentration of about 10 -3 wt.% in the lead melt. The scale grows symmetrically with regard to the initial steel-melt interface toward the liquid metal and matrix. The outer oxide layer consists of Fe 3 O 4 , the upper part of which contains plumboferrites, while the inner oxide is Cr-rich spinel Fe 1+x Cr 2-x O 4 . As the scale grows, the imperfection of the duplex oxide increases. The oxidation intensifies as interaction temperature increases to 650°C. The scale loses its protective properties and becomes penetrable for lead. With decreasing oxygen concentration in the lead melt (10 -5 wt.%), the scale growth becomes slower while the corrosion resistance of steel increases.

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Changes in the phase composition of an oxide film on EP-823 steel in contact with stagnant lead melt

Eliseeva

Tsisar

Fedirko

et al. 2004

Mater Sci

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Influence of a lead melt on plastic deformation of high-alloyed heat-resistant steels

Abramov¹,

Bozin²,

Eliseeva³

et al. 1995

Mater Sci

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O. I. Eliseeva

Effect of temperature on the interaction of ÉP823 steel with lead melts saturated with oxygen

Corrosion behavior of dispersion-strengthened ferritic Fe-13Cr-2Mo steel in lead melt

Changes in the phase composition of an oxide film on EP-823 steel in contact with stagnant lead melt

Influence of a lead melt on plastic deformation of high-alloyed heat-resistant steels

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