SU1201320A1 - Method of lining working surface of heat sets - Google Patents

Abstract

The method of lining the working surface of thermal units, including laying refractory products on a stick, edge or plate, characterized in that, in order to increase the service life of the lining, taking into account the anisotropy of the properties, the placement of parallel layers of grains in the refractory layer in the refractory layer, in the fireproof layer, in the refractory layers of refractory grains in the refractory layer, in the heat-insulating layer of parallel layers of grains in the refractory layer, in the heat-resistant anisotropy of the filler, determine the arrangement of parallel layers of grains in the refractory layer of refractory layers of granules in the refractory material, in the form of anisotropy properties, the placement of parallel layers of grains in the refractory layer in the refractory layer of refractory layers of grains in the refractory layer of refractory layers of grains, in the fire are determined by the arrangement of the parallel layers of grains in the refractory layer of refractory grains in the refractory layers of refractories masonry lead with the orientation of these layers parallel to the working surface. (L tsD SO yu

Description

The invention relates to ferrous and non-ferrous metallurgy, as well as chemical decomposition, and can be applied in thermal units lined with refractory (calcined or unburned) products.

The purpose of the invention is to increase the service life of the lining of the working surface of thermal units, taking into account the anisotropy of product properties.

Fig. 1 schematically shows an anisotropic structure in refractory products obtained by the methods of pressing, tamping, vibro-forming (IP indicates the direction of force application during the molding of products); Fig. 2 shows a parallel orientation of the filler grains in the direction of application of force; 3, the chaotic arrangement of the filler grains in a plane perpendicular to the direction of application of the force.

A specific example of implementation

way. I

Before the laying of the working surface of the thermal unit lining, the arrangement of parallel layers of the filler is determined, for which one of the following methods is used: cut the product in two mutually perpendicular directions (for all types of products); for extruded products - (except for products of isostatic pressing) - by the location of the stamp indicating the brand of the product (the face of the brick on which

product brand, parallel to the layers of the filler grains); for pressed, tamped or vibroformed products - a method for determining the speed of sound ultrasonic, electromagnetic waves through the products in three mutually perpendicular directions x one of which is parallel to any face of the product in a direction perpendicular to the layers of the filler grains the speed of the waves passing is greater than other directions.

After determining the arrangement of parallel layers of filler grains, the laying of the working lining of the thermal unit is carried out in such a way that the layers are parallel to the working surface of the lining.

Depending on the arrangement of the parallel layers of the filler relative to the side of the refractory brick, the laying of the working surface of the thermal units should be performed as follows.

If parallel layers of filler grains are parallel to a plate, then bricks should be laid on the edge or poke.

If the specified layers of filler grains are parallel to the edge, then the bricks must be laid on a die or poke.

If these layers are parallel to the butt, then the bricks should be laid on a plate or edge.

Claims (1)

METHOD OF LAYING THE WORKING SURFACE OF HEAT UNITS, including laying refractory products on a stick, on an edge, or on a die, characterized in that, in order to increase the lining life taking into account the anisotropy of the properties, the location of parallel layers of filler grains in the refractory products and the laying of the leads are determined with the orientation of these layers parallel to the working surface. ί