SU753824A1 - Raw mixture for producing heat-insulating articles - Google Patents

Description

The invention relates to the field of building materials and is intended for the manufacture of thermal insulation products. A known composition for the manufacture of a heat insulating material, comprising 3-15% foamed polystyrene beads, a mixture of 1O-70% formaldehyde resin and 26-68% phosphogypsum as a binder, and in addition, 1-7% bitumen emulsion 1. The disadvantage of this mass is high toxicity, low operating temperature. The closest technical solution is a raw material mixture for the manufacture of heat insulating products, including a bond, foamed polystyrene and an alumina-containing component, which contains a mixture of carbamide resin and aluminum chromophosphate that is tangible with the following component, wt%, as a binder: 11-71 Alumochromophosphate sticking Polystyrene foam Alumina-containing 23-62 2. Component The disadvantage of this composition is the operating temperature, high toxicity. The purpose of the present invention is to increase the operating temperature and heat resistance of products and reduce the toxicity of the mass. This goal is achieved by the fact that the raw mix, B1 is a phosphate binder, an alumina-containing component, and a lightweight aggregate contains phosphate microspheres as an easy filler and additionally serpentinite in the following ratio, wt.%: Phosphate binder 35-55 Phosphate microspheres, SOZ-55

Serpentinite1-3

Alumina-containing component / Else.

Replacing the polystyrene beads with phosphate microscopes permits the elimination of toxic19 carbamide resin from the composition.

In the mixture below, the phosphate binder with the addition of serpentinite performs the role of the host. The introduction of the latter into the phosphate component leads to their chemical interaction and chemical interaction with the walls of the phosphate microspheres, which is impossible in the case of using expanded polystyrene. In the proposed composition, a phosphate binder with the addition of serpentinite and an alumina-containing component forms a complex binding system that chemically interacts with the outer layer of phosphate microspheres to form new strong bonds, gluing the phosphate granules at lower hardening temperatures.

In their chemical and one-time composition, the phosphate spheroidal aggregate is quite close to the cementing component of the proposed mass and has the same linear expansion coefficient at any point. The internal stresses in the product are practically absent, and the newly formed bonds in the synthesized material are strong enough, which is the cause of improved heat resistance. Phosphate microspheres are glued together with a complex phosphating agent in the lining, and as a result of heat treatment they form a rigid framework. The product is characterized by uniformity.

structures that nearly cause their increased heat resistance. The high operating temperature is provided by both the initial components themselves and the compounds (intermediate and final) formed by the chemical interaction of serpentinite and the alumina-containing component with the phosphate binder and phosphate microspheres.

Examples of specific compositions.

Example, 34% of the phosphate microspheres are biased with a pre-prepared paste consisting of 11% technical alumina, 2% serpet-inite and 53% alumino-phosphate binder.

The transferred mass is placed in a farm and heat treated.

PRI mme R 2. 51.5% of phosphate microspheres are biased with a pre-prepared paste consisting of 14% alumina hydrate, 3% serpentinite and 41.5% orthophosphoric acid. The mixed mass is placed in a mold and heat treated.

PRI me R 3. 52% of the phosphate microspheres are mixed with a pre-cooked paste consisting of 7% ash, 1% serpentinite and 40% aluminum chromophosphate binder. The transferred mass is placed in a mold and heat treated.

And the table shows the characteristics of the insulating material of the proposed composition, which are confirmed by the test report.

Phosphate Microspheres - 34 Tech Alumina-11

Serpentinite-2

Al hummochromophosphate binder-53

Phosphate microspheres-41, 5

Nontoxic

13

12

Nontoxic

Aluminum oxide -14 hydroxide

-3

Serpentinite

Rthophosphoric acid-41, 5

Phosphate microspheres-52

Fly ash-7

Serpentinite-1

Claims (2)

Aluminum phosphate binder-40 Thermal insulation products made from the mixture of this composition have high thermal resistance, high operating conditions, and are non-toxic. All this makes it possible to significantly expand the field of application, improve the efficiency and quality of operation of thermal units, reduce fuel consumption and labor costs, and improve the working conditions of service personnel. Formula of the invention Raw mix for the manufacture of thermal insulation products, including phosphate binder, alumina content and component and lightweight aggregate, from Continuation tab. 12 Nontoxic 1200, in order to improve the operating temperature and heat resistance of products and reduce the toxicity of the mass, it contains phosphate microspheres as a lightweight aggregate and, additionally, serpentinite with the following ratios of components, wt.%: Phosphate binder36-55 Phosphate microspheres 30- 55 Serpentinite1-3 Gshosem containing componentEstal. Sources of information taken into account prm examination 1.Authorial certificate of the USSR N9 4O3653, cl. From 04 To 43 / GS, 1971. 2. USSR author's certificate number 399476, cl. From 04 To 15/02, 1971.