Phase and chemical analysis of a fused refractory based on bauxite concentrate

Соколов, А. Н.; Казаков, С. В.; Tsiporina, S. Z.; Vanicheva, L. L.; Myznikova, L. M.; Bragina, T. M.

doi:10.1007/bf01403211

Refractories

1987

DOI: 10.1007/bf01403211

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Phase and chemical analysis of a fused refractory based on bauxite concentrate

А. Н. Соколов¹,

С. В. Казаков²,

S. Z. Tsiporina³

et al.

Abstract: Bauxite concentrate is a promising raw material for producing high-alumina refractories that are used in the ladles designed for out-of-furnace treatment of steels [i].The purpose of this work is to study the structure and the properties of the fused refractories made from a bauxite concentrate obtained by hydrochloric acid treatment [2].Mullite-based solid solutions (having a basicity >1.5) constitute the main crystalline phase of the refractories obtained from bauxite and its concentrate [2][3][4]. The phase… Show more

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1989

1992

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Cited by 2 publications

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References 16 publications

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“…% [6]. This conclusion agrees with the results of Balkevich et al [7] and Sokolov et al [8]. However, a narrower region of homogeneity was indicated by Chakravorty and Ghosh [9].…”

supporting

confidence: 91%

Refractory products for the production units of amorphous metals and alloys

Aleksandrov¹,

Litovskaya²,

Aleksandrova³

et al. 1992

Refractories

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In recent years, extensive studies have been carried out on the synthesis of amorphous metals and alloys having improved physicochemical properties. Centrifugal-casting units are used for maintaining the melt in its amorphous state during the course of its solidifcation. Their operation is based on rotating a bowl at a speed of approximately i0,000 rpm and continuously feeding a thin jet of the molten material having a temperature of 1500-1600~ onto its bottom portion.The melt comes into contact with the bottom of the bowl and forms a film having a thickness up to 200 ~m under the action of the centrifugal force. This film is driven upwards to the edge of the bowl and is separated from it to form granules having a size of approximately 200 zm. The bowl is cooled using liquid nitrogen (T = 173 K) so as to ensure retention of the amorphous state of the granules during their fall and to avoid ~heir crystallization.Until recently, graphite bowls or water-cooled copper bowls have been used for carryin g out atomization of the melts. However, the extent of their corrosion under the action of the melt is so significant that they can not be reused after the very first melting. Furthermore, the molten metal is contaminated with the material of the bowl. Bowls made from fused quartz are also not being used widely because of cristobalitization and cracking during the course of cooling.This paper deals with a study of the possibility of replacing such bowls and other products used under the conditions involving the action of aggressive chemical media and temperature gradients with ceramic components. When developing the components, it was borne in mind that they must possess the following set of properties simultaneously: a high thermal shock resistance (heating internally up to 1550-1600~ and cooling from the outside up to 100~ nonwettability with the melts; ability to retain mechanical strength under the conditions involving prolonged action of temperature gradients along (across) the wall of the bowl; and sufficient mechanical strength for withstanding the stresses develped in the edge of the bowl under the action of significant centrifugal loads and the shear stresses developed during the operation.The accumulated experimental and the theoretical data show that some of the properties (for example, refractoriness and the limits of temperature compatibility of the products) are controlled by the physicochemical nature of the compact ceramic materials. However, their mechanical strength and corrosion resistance can be improved using different technological routes and new heterophase materials having a specific structure [i].In view of the fact that the structure consists of an aggregate of pores and a solid region containing crystals, a glass, and an amorphous phase, one can develop materials having the required service characteristics by changing the quantitative and the qualitative ratios of the structural elements and establishing the structure--property relationships.It is known that the nature of the pore structure of ...

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“…% [6]. This conclusion agrees with the results of Balkevich et al [7] and Sokolov et al [8]. However, a narrower region of homogeneity was indicated by Chakravorty and Ghosh [9].…”

supporting

confidence: 91%

Refractory products for the production units of amorphous metals and alloys

Aleksandrov¹,

Litovskaya²,

Aleksandrova³

et al. 1992

Refractories

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show abstract

“…Iron oxide is precipitated from the corundum solid solution, apparently in the form of Fe20 ~ or Fe30 ~, and in the latter case the color of the specimens darkened sharply~ From the spectra of mullite separated from the spectra of the test specimens (Fig. 3b) its basicity [4], which was 1.70-1.95, was determined. Therefore with a sufficiently high firing temperature the mullite in the investigated bauxites approaches a composition of 2Al2Oa-Si02, which was noted in investigated of foreign bauxites in varieties with relatively high Fe20 ~ and TiO z contents [5].…”

mentioning

confidence: 99%

Investigation of the bauxites of Verkhne-Shchugor Deposit of Komi ASSR

Gaenko¹,

Mel'nikova²,

Bragina³

et al. 1989

Refractories

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Phase and chemical analysis of a fused refractory based on bauxite concentrate

Cited by 2 publications

References 16 publications

Refractory products for the production units of amorphous metals and alloys

Refractory products for the production units of amorphous metals and alloys

Investigation of the bauxites of Verkhne-Shchugor Deposit of Komi ASSR

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