RU2133240C1 - Composition for fibrous heat- and sound-insulation material and method of manufacture thereof - Google Patents

Abstract

FIELD: manufacture of building materials. SUBSTANCE: in title composition containing paper fibers and antiseptics, said paper fibers are constituted by waste paper and chipboard, 71.0-69.9%; and boric acid, 3.5-3.85%, fulfills antibiotic function. Composition additionally contains filler, 5.0-7.0%: wood sawdust or chaff of flax, hemp, jute, chopped cotton, rice straw, or cane, or their 1:0.5 to 1.1.5 mixtures, and also gypsum semihydrate (20=19.25%). Waste paper and chipboard are preliminarily broken down into elementary filaments 2-3 mm long, mixed with boric acid, agitated for 3-10 s, combined with filler and agitated in mixer for 5-10 s until homogeneous paste is obtained. EFFECT: expanded process and functional possibilities. 2 tbl

Description

 The invention relates to building materials, in particular to fibrous heat and sound insulating materials and methods for their manufacture and can be used for heat and sound insulation of residential, administrative and industrial buildings and structures, thermal insulation of pipelines, as well as for the manufacture of fibrous heat and sound insulating materials .

 A known composition for the manufacture of heat-insulating material (see, for example, the description to A.S. N 1250555 in class C 04 B 28/34 (C 04 B 28/34, 16: 02, 14:20), including wt.%: Paper fiber 26-69, light filler - expanded vermiculite fractions of 0.5 - 2.0 mm 23 - 48, sodium fluoride 1 - 3, the binder is the product of the joint neutralization of aluminum-chromophosphate or alumino-phosphate binder, urea, dicyandiamide and water at a ratio of 95: 174: 122: 400 6-15 and sodium alkylsiliconate 1-8.

 However, the use of this composition requires the availability of special chemical equipment in short supply, the need for heating the mixture and the use of water.

 Also known is a composition for the manufacture of heat-insulating products (see, for example, the description for A.S. N 1416475 in class C 04 B 38/08, 28/26), containing, by weight. %: expanded perlite 5–20, liquid glass 5–15, pulp and paper fiber 5–9, and asbestos cement waste 56–85.

 A known method of manufacturing a heat-insulating material from semi-dry mixtures, which consists in mixing the components, molding and drying (see the description to AS No. 1715776 in class C 04 B 38/00, 28/26, 18/24, 1989).

 The disadvantage of these compositions is the mandatory receipt of a homogeneous hydromass and subsequent pressing of products from it.

 The disadvantage of this method is the use of liquid glass in the composition and the need for prolonged pre-pressing.

 The closest in technical essence and the achieved effect to the invention is a composition for the manufacture of heat-insulating material (see, for example, the description to A.S. N 580206 in class C 04 B 43/12, 1977), including wt.%: Expanded perlite 10 - 80 and shredded paper waste paper 9 - 60.

 However, such a material has insufficient strength (2 x 10 - 4 x 10 Pa), high density and significant water absorption, which is determined by the content of up to 80% perlite in the material, as well as a large number of different components. The absence of an antiseptic in the composition leads to a decrease in the biostability of the material.

 There is also known a method of preparing a binder for the manufacture of heat-insulating material (see, for example, and.with. N 1708795 class C 04 B 28/24, 14/16, 38/00, 1989), by mixing the components, obtaining canvas, pressing and heat treatment of the latter.

 These shortcomings, and especially the low strength of known materials make it difficult to use small-scale mechanization and require additional conditions for storage and installation, which increases the cost of insulation work.

 The disadvantage of this method of preparing a binder for the manufacture of heat-insulating material is that it does not allow the manufacture of materials and products based on gypsum.

 The purpose of the invention is the expansion of technological and functional capabilities and increased versatility.

To achieve this goal, the composition for fibrous heat and sound insulating materials, including paper fiber and antiseptics, contains paper waste and paperboard as paper fiber, antiseptics - boric acid and additionally gypsum gypsum and a filler - wood sawdust or flax or hemp bonfire, or jute, or chopped cotton, or rice straw, or reeds, or a mixture thereof in a ratio of 1: 0.5 - 1: 1.5, and the unit shows the content of one of the components and the fractional number is a mixture of the remaining components and in the following ratio of components, wt.%:
Boric acid - 3.5 - 3.85
Placeholder - 5 - 7
Waste paper and cardboard - 71.0 - 69.9
Semi-aquatic gypsum - 20.5 - 19.25
According to the method of producing fibrous heat and sound insulating material from a mixture of fiber and aggregate, including the operation of mixing the components, the paper and cardboard are first crushed to elementary fibers 2 to 3 mm long, mixed with boric acid and mixed for 3 to 10 seconds and then the resulting mixture, aggregate and gypsum gypsum are mixed in the mixer for 5 to 10 seconds to obtain a homogeneous mass.

 As starting materials, boric acid according to GOST 018704, semi-aquatic gypsum according to GOST 125, paper and cardboard waste paper according to GOST 010700 are used.

 Composition for fibrous heat and sound insulating material is made according to the following technology.

 At the beginning, the paper and cardboard waste paper is crushed in a fiber mill to elementary fibers 2 to 3 mm long, mixed with boric acid and the mixture is mixed for 3 to 10 seconds. Then the resulting mixture, aggregate and gypsum gypsum are sequentially fed into the mixer, in which they are mixed for 5-10 s until a homogeneous mass is obtained. After that, the composition is packaged in bags (paper or plastic).

 Testing of the physico-mechanical properties of the composition is carried out in accordance with GOST 17177, 0-81 - 17177, 16-81, sound absorption coefficient - GOST 16297, thermal conductivity - GOST 7076 1 shows the compositions of the proposed and known fibrous heat and sound insulating material, in table. 2 - its properties.

 As can be seen from the table. 2, the proposed composition has a high fire resistance, has a low coefficient of thermal conductivity with a small volumetric mass, and improved sound absorption characteristics.

 When implementing the proposed composition and method of its manufacture, working conditions improve, the production culture improves, paper and wood production waste is recycled, a high degree of mechanization of the process of heat and sound insulation works is achieved, and it becomes possible to establish industrial production of heat and sound insulation material, which will make it possible to obtain a reliable barrier to heat losses and proper sound insulation . Thus, the economic efficiency of the invention is due to increased operational characteristics of the material and its ease of use.

Claims (1)

1. Composition for fibrous heat and sound insulating material, including paper fiber and antiseptics, characterized in that it contains waste paper, paper and paperboard, antiseptics - boric acid and additionally filler - wood sawdust or flax bonfire, or hemp, or jute, or chopped cotton, or rice straw, or reeds, or a mixture thereof in a ratio of 1: 0.5 - 1: 1.5 and gypsum semi-aquatic in the following ratio of components, wt.%:
Boric acid - 3.5 - 3.85
Placeholder - 5.0 - 7.0
Waste paper and cardboard - 71.0 - 69.9
Semi-aquatic gypsum - 20.5 - 19.25
2. A method of obtaining a composition for fibrous heat and sound insulating material from a mixture of fiber and aggregate, comprising mixing the components, characterized in that the waste paper, paper and cardboard, is crushed to elementary fibers with a length of 2 to 3 mm, mixed with boric acid and mixed for 3-10 s, then the resulting mixture, aggregate and gypsum gypsum are mixed in the mixer for 5-10 s until a homogeneous mass is obtained. Priority on points:
11.21.95 according to claim 1;
July 16, 1997 according to claim 2.

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