HU190884B - Refractory and heat-insulating building resp. coating material - Google Patents

Abstract

The mixt. comprises (a) inorg. fibre, pref. flaked mineral fibre, (b) fire resistant material with a high m.pt., ground to a fine powder, (c) foam producing material, with a high water absorbing capacity, pref. expanded pearlite, also ground to a fine powder, (d) an additive to accelerate hardening of sodium silicate, and (e) a foam promoting additive sodium silicate in the amt. to produce the reqd. consistency.

Description

FIELD OF THE INVENTION The present invention also relates to a mixture suitable for mechanical application of fire and heat insulating masonry and coating comprising inorganic fiber, high melting point silicate-based powder, plasticity clay powder, expanded perlite, foaming agent and, preferably, waterglass as a binder.

Refractory and heat insulating materials containing mineral fiber and / or expanded perlite, generally solidified with cement binder, are known.

Known masonry and coating materials containing cement as binders have the very disadvantage that they require continuous wetting, i.e., keeping them wet for a period of at least 8 to 14 days of chemical conversion of the cement. Fibrous mixtures do not retain the water needed to cement cement, leaving the water very quickly, within hours. As a result, not only does the coating or material intended for fire or thermal insulation not achieve the desired strength, but in many cases it cannot even hold its own weight: it is powdered.

A further disadvantage of the generally known fire and heat insulating materials, which also contains inorganic fibers, is that their mechanical processing, such as forming by spraying, can be very difficult or even impossible in critical cases.

A further disadvantage of the prior art materials containing fire and heat insulating mineral fibers is that their mechanical processing - for example, when dispersed due to high internal friction - causes the fibers to become very crumbly, possibly resulting in the formation of the desired fiber, low volume, good vibration and shock resistance.

For example, the above-mentioned disadvantageous materials are disclosed in U.S. Patent No. 177,655. disclosed in German Patent Publication No. 1 225 534, German Patent Publication No. 1 135 535 and German Patent Patent Publication No. 67 345.

It is an object of the present invention to provide a fire and / or heat insulating material which is capable of forming coatings by mechanical processing, such as spraying, and of making fireproof masonry while protecting the fibrous structure.

It has been found that a mixture of at least 10 parts by weight of inorganic fiber, preferably flocculated mineral fiber (e.g., rock wool), 0.5 to 2 parts by weight of mineral powder (e.g., silica kaolin), preferably less than 0.1 mm, water-absorbing fine clay powder (e.g., illite, bentonite), 1-3 parts by weight of expanded perlite and slurry (1: 2) to (1: 5) vol. water-to-water mixture, 0.1 to 1.5 parts by weight of an additive (for example, sodium silicofluoride or citric acid) to accelerate the binding of the water glass, and 0.2 to 3 parts by weight of known foaming agents (e.g., fatty alcohol sulfate). ), is well suited to the above objective.

An exemplary composition according to the invention comprises the following ingredients:

tr. mineral filament (5-8 mm long), tr. kaolin powder (with a particle size of less than 0.1 mm), tr. illite (fine meal), tr. expanded perlite (1-3 mm mesh size),

0.3 tr. sodium silicofluoride, tr. blowing agent (e.g., fatty alcohol sulfate) followed by 1: 3 vol. with a mixture of soda water and water to the desired consistency.

The composition of an additional mixture is as follows:

tr. 4-5 mm fiber basalt wool, tr. expanded perlite, tr. bentonite fine grit,

0.8 tr sodium silicofluoride or citric acid,

1.2 tr blowing agent,

1.5 tr powdered kaolin, followed by 1: 4 vol. a mixture of sodium water glass to water, to adjust the consistency.

The exemplary material of the present invention, as exemplified above, is substantially foamed during the mixing operation and, in this state, becomes easily dispensable by machine, retaining its easily flowing foam character through its transport via pipeline.

Most of the known materials, mainly containing rock wool fibers, have been ground to powder by a rolling worm pump for conveying the material and blocked by wires during machine application. Surprisingly, the foam material of the present invention was not significantly damaged by the same screw pump. When applied by spraying up to a thickness of 30-40 mm, the material retained the desired sponge structure.

The strength and durability of the formed surface have been improved because of the influence of illite or bentonite on the surface of the rock wool grain additive.

A significant result is that 177,655. It was also possible to maintain the basic alkalinity of the mixture by leaving the lime hydrate used according to the Hungarian Patent Application No. 3,600,300, and thus eliminating the health damage caused by the lime hydrate during the spraying process. Processing is simpler and more productive.

The material mixture according to the invention can be used very advantageously for the pre-fabrication of methods already known in the construction industry, such as moldings, for filling of spaces formed by formwork, or for manual or mechanical crushing.

Claims (1)

A patent claim Mixture of mineral or fibrous materials, high melting point, refractory mineral flour, perlite, water-glass and water-mixture, for the construction of fire or thermal masonry, moldings or coatings, characterized in that at least -210 parts by weight of rock wool additive, high melting point refractory mineral powder, 0.5-2 parts by weight of kaolin fine powder, 1-3 parts by weight of expanded perlite, at least 1 part by weight of illite or bentonite, and adjusting the desired consistency (1: 2) - (1: 5) vol. water-to-water mixture and water-glass binding agent, preferably 0.1 to 1.5 parts by weight of sodium silicofluoride or citric acid and 0.2 to 3 parts by weight of blowing agent, preferably fatty alcohol sulfate.