Interaction with steel of refractories containing oxygen-free additions

Aksel'rod, L. M.; Val'dman, O. A.; Dol'nikov, I. Ya.; Новиков, В. Л.; Yudin, B. F.

doi:10.1007/bf01397853

Cited by 3 publications

(4 citation statements)

References 7 publications

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“…To the products of gasification of the carbon are added the gases liberated from the pores of the refractory and the gaseous products formed as the result of reactions of solid-phase reduction by carbon of the oxides of the refractory [5]:…”

Section: Literature Citedmentioning

confidence: 99%

Use of graphite-containing nozzles for vacuum casting of ingots

Il'in¹,

Goryacheva²,

Dolbilkin³

1990

Refractories

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The quality of the gunited coating makes it possible to continuously cast up to five heats in a single series and the specific consumption of the guniting compound is 1.5-1.6 kg/tonne of steel. The hardened residues of metal and slag are removed from the tundish without difficulties. No increase in nonmetallic inclusion content of the steel in comparison with the period of use of imported compounds was noted. CONCLUSIONSUnder the conditions of the Electric Melt Shop of Belorussian Metallurgical Plant a guniting compound composition has been developed and a production method has been intnoduced for guniting of the lining of tundishes for casting of cord, cable, and alloy steels. i. 2.3.

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Section: Literature Citedmentioning

confidence: 99%

Use of graphite-containing nozzles for vacuum casting of ingots

Il'in¹,

Goryacheva²,

Dolbilkin³

1990

Refractories

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“…ib) or the shell does not separate from the refractory in each step of withdrawal and rupture of it occurs at the junction of the fronts or at the junction of the steps (Fig. Ic).The theory of nonwetting by molten metal of a refractory containing carbon and metal nitrides and carbides was presented in a preceding article [5].During experimental use of refractory nozzles of different compositions it was established that the zone of greatest wear in the absence of flow of metal into the joint of the refractory with the mold is the face portion of the nozzle at a distance of 4-6 mm from the mold (Fig. 2).…”

mentioning

confidence: 93%

“…Necessary conditions determining the life of the nozzle in a horizontal continuous casting machine are the absence of a gap at the joint of the refractory nozzle with the mold and the presence in the composition of the refractory material of components not wetted by the molten metal (C, BN, SiaN~, etc.) [i, 4,5].…”

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confidence: 99%

Horizontal continuous casting machine nozzles

et al. 1990

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The determining role of the refractory part located in the mold of a horizontal continuous casting machine in formation of a high quality continuously cast billet has been discussed in detail in the domestic [i] and foreign [2,3] literature.Preliminary stoppage of teeming Of steel in a horizontal continuous casting machine and low quality of the billets cast are caused by wear (failure) of the refractory nozzle. The reasons for wear may be insufficient heat resistance and mechanical strength, low resistance to molten steel, excess wettability of the refractory material by the molten steel, and high thermal conductivity. Necessary conditions determining the life of the nozzle in a horizontal continuous casting machine are the absence of a gap at the joint of the refractory nozzle with the mold and the presence in the composition of the refractory material of components not wetted by the molten metal (C, BN, SiaN~, etc.) [i, 4, 5].As established experimentally, under the action of ferrostatic pressure of the molten metal in the metal reservoir (level of the metal 0.4-0.6 m) the metal flows into the gap between the refractory and the water-cooled surface of the mold with a gap thickness of 0.08-0.05 mm, forming a single whole with the solidifying shell of the ingot (Fig. la). In this case either the shell separates from the refractory with a gradual increase in the gap and accordingly poorer quality of the case billet and failure of the refractory (Fig. ib) or the shell does not separate from the refractory in each step of withdrawal and rupture of it occurs at the junction of the fronts or at the junction of the steps (Fig. Ic).The theory of nonwetting by molten metal of a refractory containing carbon and metal nitrides and carbides was presented in a preceding article [5].During experimental use of refractory nozzles of different compositions it was established that the zone of greatest wear in the absence of flow of metal into the joint of the refractory with the mold is the face portion of the nozzle at a distance of 4-6 mm from the mold (Fig. 2). This zone corresponds to the region of the ingot shell and to the region of the two-phase composition (liquid-solid) of the phase diagram, which was also confirmed by calculation [i]. The high surface activity of oxygen and sulfur at the refractory-metal interface of the phases (in the two-phase zone) leads to formation of intermediate products of interaction with the elements of the refractories being oxidized all the way to formation of solid or gaseous oxides (sulfides). This phenomenon is also confirmed by'analysis of the microstructure of disks from the zone of the junctions of the steps, where gas bubbles and sulfide inclusions are recorded. This process also leads to local wear of the refractory (Fig. 3).Several designs of the refractory nozzle-mold joint and also different refractory materials containing carbon and oxygen-free compounds have been tested on a horizontal continuous casting machine.Three plans of the nozzle-mold joint were tested: a) attached re...

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“…Other materials (nitrides, carbides) that form a gas layer in the pores during oxidation are known [9]. An especially interesting compound is hexagonal boron nirride, which oxidizes at a substantially slower rate than graphite and whose flakes are much finer than those of graphite (for example, in graphite of grade GT the flakes are 0.7 -1.2 mm long and 0.02-0.04 mm wide, whereas the flakes of hexagonal boron nitride are 0.005 -0.01 mm in size).…”

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Improving the endurance of graphite-containing submerged nozzles for CCM

Aksel'rod

1996

Refractories

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The main causes of erosion of graphite-containing submerged nozzles in the slag belt in operation of continuous casting machines and results of industrial tests of experimental articles of different compositions are described. It is shown that the materials can be arranged in the following series in accordance with their endurance: A1203 -C -SiC -BN ~ ZrO2 -C -SiC ---> A1203 -C -SiC.The efficiency of continuous steel casting is determined by the quality of the cast preform, which depends to a considerable degree on the stability of the process, i.e., the possibility of sustaining a constant casting rate for a long time. Submerged nozzles of a corundum-graphite composition are suitable for casting any grade of steel, but their service life is restricted by erosion of the wall of the submerged nozzle in the slag belt, thermal cracking of the nozzle walls, and blocking of the channel and the tap holes by aluminum oxide and calcium aluminate [1].The process is completely stopped or the casting rate is changed considerably when the submerged nozzle is being replaced, which creates a number of problems. First, this causes a loss of steel production, second, the part of the ingot formed in the period when the nozzle is being replaced (30 -90 sec) is rejected, and third, the cyclic fluctuations of the load exerted on the bearings of the rolls of a curvilinear CCM, which are an order of magnitude higher than the fluctuations in casting at a constant rate, damage the bearings and rolls. In addition, the closing of the tapping channel of the intermediate ladle during the replacement of the nozzle causes blocking of the channel and requires its burning through in oxygen. This worsens the quality of the continuous ingot, enriching it with endogenous inclusions, and creates an emergency situation on the casting platform.The present article is devoted to results of an investigation of corundum-graphite submerged nozzles with a slag belt made of various erosion-resistant refractory materials.St. Petersburg Institute of Refractories, St. Petersburg, Russia.The operating conditions and the factors affecting the wear of the slag belt of a submerged nozzle at the level of a metal meniscus covered by a slag-forming mixture (SFM) are presented in Fig.

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Interaction with steel of refractories containing oxygen-free additions

Cited by 3 publications

References 7 publications

Use of graphite-containing nozzles for vacuum casting of ingots

Use of graphite-containing nozzles for vacuum casting of ingots

Horizontal continuous casting machine nozzles

Improving the endurance of graphite-containing submerged nozzles for CCM

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