RU2530973C1 - Fire-resistant product for lining of high-temperature units - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention relates to metallurgy and can be used for lining of high-temperature metallurgical units. The fire-resistant product for the lining of high-temperature units includes the top and bottom surfaces, side surfaces, internal side wall and external lateral wall. The external lateral wall of the product in the cross-section along the whole height of the product is made along the sine wave curve, meanwhile the surface of external lateral wall has the raised and lowered parts, alternating one after another. Height h of the raised part of the surface of the external lateral wall amounts 3-35% from the thickness of the fire-resistant product. The fire-resistant product can have the shape of wedge or right parallelepiped.

EFFECT: invention allows to improve the lining resistance of high-temperature units.

3 cl, 4 dwg

Description

The invention relates to metallurgy and can be used for lining high-temperature metallurgical units.

A refractory product is known for lining high-temperature aggregates, in particular steelmaking ladles. To increase thermal insulation, in the side walls of which corrugation (irregularities) is made (Patent US 8257645, F23M 5/02, 09/04/2012). Basically, the insulation product known from the patent is used for curved sections of casings, with lining in horizontal rows that fit snugly against the metal housing, while additional insulation is not provided between the metal housing and the insulation products. Irregularities on the outer wall of the products can have a variety of shapes, including curved or arched shapes, in the form of channels, grooves, squares and rectangles.

The disadvantage of the design of the lining made by the products of this invention is that the lining of the buckets can be performed only by a screw method, without closing each ring of the lining. This reduces the structural strength of the entire structure, the lining side formed by irregularities will not provide displacement of the products in the vertical direction of the lining, which can lead to the opening of horizontal joints and the passage of metal.

The technical result achieved in the claimed invention is to increase the resistance of the lining of high-temperature units, increase the structural strength of the lining.

The technical result is achieved by the fact that the refractory product for lining of high-temperature aggregates, including upper and lower surfaces, side surfaces, inner side wall and outer side wall, in which, ACCORDING TO THE INVENTION, the outer side wall of the product in cross section along the entire height of the product is made in a sinusoidal curve, while the surface of the outer side wall has elevated and lowered sections that alternate one after another, and the height of the elevated portion of the surface externally the sidewall is 3-35% of the thickness of the refractory product.

The refractory product may be in the form of a wedge or the shape of a straight parallelepiped.

Refractory product made according to the invention is intended for lining of high-temperature metallurgical units for molten metal. The metal casing of metal smelting units is lined with products whose outer side wall has a sinusoidal cross-sectional profile. Refractory products are wedge-shaped blocks - for lining curved or round surfaces of a metal casing (case), or parallelepiped-shaped blocks - for lining straight sections of the metal case of a high-temperature unit.

Lining with refractory products is carried out in such a way that the surface of the outer side wall having elevated and lowered sections, when the products are joined together, form a sinusoidal surface uniformly over the entire height of the lining.

The size and shape of such elevated and lowered sections on the product can be optimized to provide the ideal or necessary insulation and increased structural strength of the lining.

For a more accurate understanding of the structural elements of a refractory product, the following figures are given:

Figure 1 - View of the refractory product in the form of a wedge.

Figure 2 - Refractory product in cross section.

Figure 3 - Lining with refractory products of a round (curved) surface of the metal housing of a high-temperature unit.

Figure 4 - Lining with refractory products of a straight section of the metal casing of the high-temperature unit.

High-temperature deformation of the steel casing helps to weaken the lining, enhancing the process of erosion between the joints. It is necessary to very accurately withstand the geometric parameters of refractory products to achieve a tight connection between the products. To prevent the opening of the ring from refractory products, the loss of individual products from the lining or the displacement of the whole ring (rings) of the lining relative to each other, it is proposed by this invention a special profile of the outer side wall of the product - the outer side wall of the product is performed along a sinusoidal curve, and mounted from the proposed products the wall will be a surface having elevated and lowered sections that alternate one after another.

Figure 1 shows an embodiment of the invention. The refractory product 1 has an upper 2 and lower 3 surface, side surfaces 4, an inner side wall 5 and an outer side wall 6, which, when lined, is close to the metal casing of the high-temperature unit. In the cross section (Fig. 2), it is seen that the outer side wall along the entire height of the product is made according to a sinusoidal curve, and the height h of the elevated portion of the surface of the outer side wall is within 3-35% of the thickness H of the refractory product (Fig. 2), depending on the type of lined unit. In the drawings (Figs. 1, 2), the refractory product is a block product of a wedge-shaped or parallelepiped shape high enough to accommodate the required number of elevated sections with a height of h mm on the outer side wall. For joining the products “blindfold” or “rings”, the dimensions of the refractory products and the number of elevated sections on the surface of the side wall vary depending on the height of the lined section of the metal casing of the high-temperature unit. But the end of the upstream product (block) and the beginning of the downstream product (block) are connected to each other so that they form a continuous external surface along a sinusoidal curve. This is shown by the example of lining with refractory products of a round (Fig. 3) and straight (Fig. 4) surface of a metal casing of a high-temperature unit.

The refractory product according to the invention is in particular used for lining the immersion nozzles of a vacuum cleaner in the production of stainless steel. The RH-degasser has two nozzles that are immersed in the molten metal. The DH-degasser has one nozzle. As a result of the movement of the molten metal in the nozzles of the vacuum systems lined with conventional refractory products, the lining products are displaced in the vertical direction, the joints open and the unit prematurely shuts down. Refractory products for the lining of submersible pipes experience large thermal, mechanical and chemical influences, and the periodic mode of operation of the vacuum chamber causes additional thermomechanical stresses in the refractory lining of the pipes. Therefore, it is recommended that the nozzles of the vacuum chamber be lined with refractory products of the form according to the invention. Used for lining products in the form of a wedge, the outer side wall of which along the entire height of the product is made according to a sinusoidal curve. The products are used for lining of different heights, sufficient to place evenly the required number of elevated sections on the outer side wall, for joining the products “dressing” or “rings”. For lining of submersible pipes use periclase-chromite products. The space between the metal casing of the nozzles and the sinusoidal surface of the outer side wall is filled with refractory concrete or mass, which, as a result of hardening (sintering) monopolizes the entire structure of the nozzle. The lining resistance of this particular embodiment of the invention when replacing direct products with products with a sinusoidal profile of the outer wall increased from 140-142 heats to 180. The use of products with such a profile significantly increases the structural strength of the lining of the vacuum nozzles and prevents displacement in the vertical direction of the masonry and the opening of horizontal joints.

The given specific embodiment of the invention does not limit other applications of the products of the proposed form in various high-temperature units, including steel pouring ladles, electric arc steel furnaces and other units.

The shape of the products proposed by this invention provides an increase in the area of the outer side wall of the products, which provides additional heat dissipation, a lower temperature gradient (drop) and, accordingly, less stress in the lining, which prevents the products from chipping as a result of a sharp change in temperature and affects the overall lining resistance .

Claims (3)

1. Refractory product for lining of high-temperature units, including upper and lower surfaces, side surfaces, inner side wall and outer side wall, characterized in that the outer side wall of the product in cross section along the entire height of the product is made along a sinusoidal curve, while the surface of the outer the side wall has elevated and lowered sections that alternate one after another, and the height of the elevated portion of the surface of the outer side wall is 3-35% of the thickness of the refractory products. 2. The refractory product according to claim 1, characterized in that it has a wedge shape. 3. The refractory product according to claim 1, characterized in that it has the shape of a straight parallelepiped.

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