CS206149B1 - Substance for cementing the fireproof fibrous materials - Google Patents

Description

The invention relates to a material for bonding fibrous insulating materials, whether glass, mineral or ceramic.

At present, the modern lining composition of furnace aggregates is characterized by a reduction in weight and at the same time an increase in insulation ability. The most suitable material in this respect is insulating linings made of fibrous materials, the use of which reduces heat losses both by very low heat accumulation and by conduction and radiation to the surroundings.

A certain disadvantage of insulating fibrous materials is their low mechanical strength, which does not allow them to form a separate lining and must therefore be fixed to the substrate, usually by anchoring to metal or ceramic anchors. Another method is to bond these insulations with special materials.

It is known to use cementitious compositions for these purposes, which however harden for a long time and in practice cannot be accelerated.

Another known compound for these purposes is those based on organically bound silicates, which are, however, difficult to access, slowly solidify and exhibit low strength even after solidification.

Some materials require elevated temperature and phosphoric acid-based materials, due to their acidic components, also require protective equipment at work.

These drawbacks are overcome by a material for bonding fibrous insulating materials which consists of 30 to 60 weight percent refractory ground material or ground, for example fireclay, with a grain size of up to 0.2 mm, 5 to 20 weight percent silica with with a specific surface area above 15 m ^{2 /} g and from 30 to 60 weight percent of water glass having a density of 30 ° Bé - 38 ° Bé.

In some cases, 1 to 10 weight percent of a solidification accelerator, such as sodium fluorosilicate or formamide, may be added to the composition to accelerate solidification.

The composition according to the invention is suitable for bonding fibrous insulations, in particular in the form of felt and sheets, and further shaped articles thereof. This material makes it possible to bond the fiber insulation to the refractory masonry and metal substrate, even in the case of their previous use.

The composition according to the invention exhibits good workability and is easily applied to the substrate, either by brush or by spatula, possibly also by machine. A great advantage is the suitable consistency of the material, characterized by thixotriopic properties, which allows immediate adhesion of the fiber insulation to the substrate, both on vertical walls and on the ceiling, where no fixation of glued layers is necessary.

The solidification of the mass is fast and is easily regulated by the addition of the setting accelerator. When heated to ¹ operating temperature, the strength of the adhesive does not decrease, but increases slightly. and

An exemplary embodiment of the composition according to the invention has been tried several times in practice. j

In the first case it was matter that! consisted of 46 weight percent chamotte! 11% by weight of silica fume and 43% by weight water glass density, 30 ° Bé. This mass was applied to the original fireclay masonry of a large annealing furnace, and fiber insulation boards of 45 mm thickness were adhered to it. In this way the walls, doors and ceiling of the furnace were lined. Gluing, including work on the ceiling of the furnace, was easy, the fibrous insulating boards immediately adhered to the substrate, and so the work showed high labor productivity. !

Claims (1)

SUBJECT 1. Adhesive composition, in particular refractory and fibrous materials, characterized in that it consists of 30 to 60 percent by weight of refractory ground material or ground, for example fireclay, with a grain size of up to 0.2 mm, of 5 to 20 percent by weight of silica with surface area over 15 m ² . g ^-1 to 30 to 60 by weight ^(! I i 2 ... i I This furnace has been operating periodically at temperatures up to 900 ° C for more than half a year without any defects. In the second particular case, the composition of the same composition was used for gluing the fibrous insulating elements in the boiler burner chamber on a metal substrate. .The entire lining is still free from defects even after six months. The boiler operates periodically and reaches temperatures of up to 1240 ° C during peak periods. In addition, the following composition was tested in the laboratory. 39% by weight of corundum meal, 12% by weight of silica fume, 49% by weight of 30 ° Bé water glass. This mass was applied with a brush to the chamotte blocks and the fiber insulation boards were glued to it. Tests have shown that it is possible to use this material permanently at temperatures up to 1300 ° C. INVENTES a percentage of water glass having a density of from 30 ° Bé to 28 ° Bé. 2. Adhesive composition according to claim 1, characterized in that it contains from 1 to 10% by weight. solidification accelerators, for example fluorosilicate! sodium or formamide.