JPS61119371A - Container for molten metal - Google Patents

Abstract

Containers for molten metal having a permanent refractory lining and a molten metal contacting inner lining have in at least one place, separating the permanent and inner linings a layer substantially consisting of heat-carbonisable sheet material. The sheet material carbonises during use to yield a carbonaceous parting layer which facilitates removal of skull and the inner lining without damage to the permanent lining.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a lining material for a container for molten metal.

Containers for molten metal typically consist of a metal casing lined with refractory bricks or an integral refractory lining;
This lining material is often referred to as a durable lining material. Durable liners are susceptible to damage, are highly textured, and are time consuming to repair or replace.

In particular, after months of use, solidified molten metal and slag residue (
Sculls (skulls) may stick to the lining material and require removal before reusing the container, but they can be difficult to remove and May damage upholstery.

In view of the above-mentioned problems, it has been proposed to protect the durable liner with an inner layer, which may also serve other purposes. In particular, British Patent No. 147763
No. 2 discloses the application of a double inner layer over a durable lining material.

The first layer is some separation layer from particulate carbonaceous material, e.g. coke powder, containing no durable binder or
or substantially free of it.

The first layer is applied as a liquid or pasty composition by spray or trowel. The second or inner layer consists of a shaped body of particulate refractory material and is applied, for example, by troweling onto the coating composition. This combination of two layers protects the durable lining and in particular makes it possible to cleanly remove a skull from, for example, a tundish without damaging the durable lining. These layers are applied before each repeated use of the container.

According to this invention, a container for molten metal includes a durable refractory lining material, an inner refractory lining material, and a separation between the durable lining material and the inner lining material. and includes at least one layer substantially of sheet material that can be carbonized by heating.

When the container contains molten metal, sufficient heat is transferred through the inner lining to the sheet material to carbonize the sheet material and produce a carbon F residue. Instead, the inner lining is preheated before the molten metal is placed into the container.
The preheating may be sufficient to carbonize the sheet material and produce a carbonaceous residue. The carbonaceous residue facilitates removal of the skull and inner lining, providing an effective separation layer without damaging the durable lining.

Sheet materials that can be carbonized by heating are, for example, newsprint, kraft paper, cardboard (for example laminated corrugated cardboard), wallpaper, hessian, straw rugs, polyethylene or polypropylene fabrics.

Sheet materials that can be carbonized by heating are flexible, especially when the durable lining has irregularities on its surface, such as areas with sores or foreign matter. This sheet material is valuable in that it can be positioned as desired. Also, suitable sheet materials are available in bulk and easily cut to size. Thus, sheet materials that can be carbonized by heating are quickly and easily applied. Before the inner lining is applied, clips or adhesives can be used, if necessary, to support the sheet material from falling off the durable lining, e.g. If the lining is more or less upright, or if the sheet material is very flexible, such as newsprint, rather than something less flexible like cardboard, clips or adhesives can be used. can be used. In the case of newsprint, water provides sufficient adhesive strength, and various commonly used expensive adhesives, such as starch-based adhesives, are suitable. ◇Thin sheet materials, For example, in the case of newsprint, it is preferable to use multiple sheets one on top of the other to form a layer, but if thick sheet materials, such as cardboard, are used, a single thickness is sufficient. The thickness of the layer is preferably 0.1-2 mm.

In a molten metal container with an inner lining and a durable lining, the inner lining (to which the skull is bonded) is fused to the durable lining. Trends are important only in certain parts of the container. For example, in the case of a tundish, the above tendency for molten layers to occur is most noticeable at the bottom of the tundish and at the slag line (i.e., the normal height of the slag above the surface of the molten metal in the tundish). be done.

Therefore, in a container according to the invention, sheet material that can be carbonized by heating is only provided where there is a significant risk that the inner lining material will become fused to the durable lining material. You can.

The inner lining keeps the charcoal residue in place to serve its ultimate function as a separation layer.

Additionally, the inner lining and carbon sludge protect the durable lining from erosion by molten metal and slag within the vessel.

The inner lining material is as described in British Patent No. 1864665 (
(As described about Tanditshu in
It can also be attached by a set of slabs made of refractory insulation. However, in accordance with the present invention, the endoscopic lining is preferably of all-one-piece construction and is preferably formed in-situ.

The inner lining is preferably formed by applying a fire-resistant coating composition, which can be applied, for example, by troweling, but it is preferred to apply the composition by spraying.

The coating composition for forming the inner lining is preferably based on one or more particulate refractory materials and an inorganic binder. Examples of suitable particulate refractories include silica,
Contains chamotte, olivine, sillimanite, zircon, magnesia, alumina and zirconia. Examples of suitable inorganic binders include silicates, phosphates and aluminium of alkali or alkaline earth metals, tetrasols of field oxides and clays. 0.0 to improve the initial strength or cohesion of the applied coating composition.
Preferably, 5-5% by weight of fiber is included in the composition. m#i also serves to enhance the thermal insulation provided by the composition. It is usually preferred that the inner lining material has thermal insulation properties. The #l fibers included may be organic and/or inorganic, an example of organic fibers being chopped straw and an example of inorganic fibers being glass fibers. Organic binders may also be present in the composition.

The thickness of the inner lining material is preferably from 10 to 50 mm.

If the inner lining is made of a coating composition that contains relatively large amounts of moisture or a binder that requires heating for curing, the composition may be removed after application. can be heated to drive out moisture or harden the binder.

If the inner lining is made of a preformed product, e.g. a slab, some component of the lining, e.g. This results in a tendency to migrate to the back side of the liner and, in the absence of a separation layer, cause the inner liner to adhere to the durable liner.

Similarly, in the case of inner linings provided by coating compositions, any water-soluble binder in the composition, such as a silicate salt, may be added to the lining material during use or preheating. It has a tendency to migrate to the back. In such cases, the separating layer present according to the invention is of particular value.

Although the invention has particular value when the container is a tundish, it is also useful in the case of other containers for molten metal, such as ladles. This invention is particularly effective in the case of containers for molten iron-based metals, such as molten steel.

A method of lining a container forms part of this invention.

An example of a container according to this invention is Sotogawa no Kin! R outer shell,
A durable lining made of refractory material integrally molded adjacent to its outer shell and a laminated corrugated paper (approximately 15 ff thick) placed on the bottom of the tundish over the durable lining Numerous layers of newsprint on the sides (total thickness approx. 0.2
+w) and a layer on which a composition of a particulate refractory material and an inorganic binder is applied by spraying. For casting) Tanditshu 0

Claims (1)

[Scope of Claims] 1. A container for molten metal comprising a durable refractory lining material and an inner refractory lining material, which is a sheet material that can be carbonized by heating. A container comprising: a layer substantially consisting of separating the durable liner and the inner liner at at least one location of the container. 2. A patent claim characterized in that the sheet material that can be carbonized by heating is at least one of newsprint, kraft paper, cardboard, wallpaper, hessian, straw rug, polyethylene fabric or polypropylene fabric Containers listed in item 1 of the scope. 3. A container according to claim 1 or 2, characterized in that the layer of sheet material that can be carbonized by heating is composed of a plurality of thin sheets. 4. According to any one of claims 1 to 3, characterized in that the layer of sheet material that can be carbonized by heating has a thickness of 0.1 to 2 mm. container. 5. A container according to any one of claims 1 to 4, characterized in that the inner refractory lining material is composed of a set of slabs. 6. A container according to any one of claims 1 to 4, characterized in that the inner lining material has a single structure. 7. Container according to claim 6, characterized in that the single lining is made on site. 8. A container according to claim 7, characterized in that the single lining material is made by troweling or spraying. 9. Any one of claims 6 to 8, wherein the inner lining material is made of one or more particulate fireproofing materials and an inorganic binder. Containers listed in . 10. Claim 9, characterized in that the particulate refractory material is one or more of silica, syamoto, olivine, sillimanite, zircon, magnesia, alumina, or zirconia. Container to be described. 11. The inorganic binder is one or more of the following: alkali metal or alkaline earth metal salts of silicic acid, phosphoric acid, or aluminic acid, hydrosols of colloidal oxides, and clays. A container according to claim 9, characterized in that: 12. Container according to any one of claims 9 to 11, characterized in that the inner lining material contains a certain proportion of fibers. 13. Claim 12, characterized in that the fiber is an organic fiber, an inorganic fiber, or a mixture of these fibers.
Containers listed in section. 14. Container according to claim 12 or 13, characterized in that the proportion of fibers is 0.5-5% by weight. 15. The container according to any one of claims 1 to 14, characterized in that the container is a ladle or a tundish.