DE2450043C2 - Method of filling a hole in a ferrous metal body - Google Patents

Description

The invention relates to a method for filling a hole in a body made of ferrous metal, wherein in the hole a heat-generating composition of solid components is filled, which together react to form molten slag and the composition to form that slag is made to react.

A casting mold called a "chill" usually consists of a cast iron body that is open at one end, z. B. with a rectangular cross-section, the insides of which are slightly beveled to remove the solidified To facilitate slab. The foot of the mold is a cast iron base that forms the bottom of the mold cavity forms. The same base or bottom plate is used for molds different sizes are used, which are arranged centrally on the base. When pouring the melted Metal in the mold, this tends to hit essentially the same point on the base. The progressive erosion caused by this gradually creates an impermissibly deep hole in the ground.

A suitable heat generating composition of the generic type is a particulate metal which oxidizes upon reaction to form the slag. A preferred heat generating composition of this type is a mixture of aluminum powder and ferric oxide or other iron oxide which causes an exothermic reaction to form aluminum oxide as slag and metallic iron. One such mixture, known as thermite, is commercially available and is also used for certain welding jobs
Thermit was already used to close the hole, but in such a way that the hole was filled with a welding button or welding core made of metallic iron. The slag produced in the exothermic reaction is an undesirable by-product that is removed. Because of its physical

is properties, e.g. B. its fragility, could not can be used to create a usable work surface. The result is imperfect in that than the molten metal can fuse with the metal of the weld button, so that the Weld button pulled out of hole when the ingot or slab is pulled out of the mold will.

The invention is based on the object of specifying a method of the generic type according to which it is possible to fill the hole in such a way that a working surface is formed from a non-metallic, inorganic material that is resistant to wear.
According to the invention, this object is achieved by

jo that in the hole a lumpy refractory material in such an amount is filled that it is through a solid structure of the slag when cooling after the exothermic Reaction is held together and the hole at least over part of its depth with the through the solid structure of the refractory material held together is filled. In contrast to the generic Method, the composition is used in such a way that the hole with the refractory or heat-resistant Material held together by the slag to form a brick-like material, is locked. There is a weld button under the brick material, which is a by-product of the reaction arises. Its presence is accidental, and the work surface is made by the brick-like material formed that is very resistant to sudden thermal stress. If that Brick-like material wears out over time due to repeated use of the mold, it can by using appropriate amounts of the composition prior to exposure of the weld core or button.

The lumpy refractory material can be mixed with the heat generating composition in the Hole to be filled.

The refractory or refractory material of the composition can be calcined clay or trade another ceramic. It is favorable to use a material made of refractory brick or Fireclay (e.g. from steel mills) that has been crushed into lumpy form, e.g. B. by crushing, crushing or break. Other refractory or heat-resistant materials are silicon carbide, magnesite, aluminum silicates (aluminosiücates), burnt dolomite, Aluminum oxide (clay) and mixtures of these materials. Magnesite is special because of its cheapness Suitable expansion coefficients. The exact particle size is not critical. Preserves for most purposes a suitable surface quality can be achieved by

Granularly chopped up refractory brick, firebrick or other refractory material. Good results have been achieved with refractory 7, iegclmaterial or refractory chamottes that have been sieved to less than three millimeters (to the Vh of an inch). Better ones Results have been obtained with particles passing through a 1/2 "sieve but a 1/2" sieve are retained, probably because too fine particles are avoided Solubility in the slag is relatively high.

A suitable proportion of the refractory material can be determined by a simple experiment. the Use of crushed refractory chamotte in an amount of about 15 to 30 percent by weight, preferably about 20 percent by weight of the composition, gives satisfactory results with thermite, that's an amount of about 60 to 70 percent by weight Contains aluminum, calculated from AI2O3

According to a modification of the method described, the refractory material or a part thereof introduced into the slag while it is in the hole in a molten state. Preferably the refractory material is mixed with the slag by stirring. The mixture does not need to be homogeneous over the entire depth of the hole if a filling with satisfactory properties Work surface is to be formed.

The drawing, which is understandable from itself, serves to explain the invention.

F i g. 1 shows the top view of a floor slab with an erosion hole, which is produced according to the new method is filled, and

F i g. Fig. 2 shows the sectional view 2-2, from which it can be seen that the hole below has a metal core or -button and top has compound slag.

1 sheet of drawings

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Claims (7)

Patent claims: 1. A method of filling a hole in a ferrous metal body, being in the hole a heat-generating composition is filled with solid components that react with each other, so that they form molten slag, and the composition to form that slag is brought to reaction, characterized in that that in the hole a lumpy refractory material is filled in such an amount, that it is held together by a solid structure of the slag when it cools down after the exothermic reaction and the hole at least over part of its depth with that through the solid structure held together refractory material is filled. 2. The method according to claim 1, characterized in that the lumpy refractory material with the heat generating composition is mixed and filled into the hole. 3. The method according to any one of claims 1 and 2, characterized in that the refractory material fired clay is. 4. The method according to any one of claims 1 to 3, characterized in that the amount of refractory Material is about 15 to 30 percent by weight of the composition. 5. The method according to any one of claims 1 to 4, characterized in that the body made of ferrous Metal is made from cast iron. 6. The method according to any one of claims 1 to 5, characterized in that the body made of ferrous Metal is the base plate of a casting mold. 7. Ferrous metal body with a hole extending over at least part of its depth with a lumpy, refractory material held together by a structure of slag is filled, which is produced by a method according to any one of claims 1 to 6.