SU1648936A1 - Method for production decorative-isolation plates - Google Patents

Abstract

The invention relates to methods for producing a material such as fibreboards used for interior cladding, insulation and sound insulation of walls, partitions and ceilings. In order to simplify the process, improve the environment, increase the flexural strength, save energy and materials, the preparation of pulp is carried out by crushing to a fiber size of 4-6 mm. Then a carpet is formed and hot pressed, and the production waste of respirators is used as a pulp. When the density of products is 250-300 kg / t-s, the flexural strength is 5.5-6.0 Sha, the water resistance is 2% for 1 h, the thermal conductivity coefficient is 0.045-0.050 kcal / m-h-s, the sound absorption coefficient is 0.7. 1 taol. From $

Description

The invention relates to methods for producing building materials such as wood fiber boards used for interior cladding, insulation and sound insulation of wall walls, partitions and ceilings of garden houses, household structures, slabs under both.

The purpose of the invention is to simplify the process, improve the environment, lead, bending strength, save energy and materials.

The manufacturing method of finishing insulation boards is carried out in the following order; Respirator production wastes are crushed on a rotary-butt crusher of the IPR-300 type to the ground fiber from 4-5 mm, the fibers have a diameter of 7 μm. Then the carpet is formed with the help of a forming machine like DF-1. The pressing is carried out in hot presses at 120-140 ° C. The pressure force is 1-2 MPa. Pressing mode 15-20 minutes.

The cooling of the finishing-insulating | Plates after pressing is carried out in the feet with metal (aluminum) gaskets.

In the production of insulation-insulating plates with increased surface water resistance, polyethylene film is placed on the pallet before molding.

In the process of pressing, due to the presence of a fiber of small length, the laying of the fibers takes place along the length.

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and transversely to the fiber, which gives improved physical and mechanical properties of the products and prevents stratification, perchlorvinyl fiber softens at the temperature of the heating plates of the press 120-140 С and creates a dense reinforced structure on the surface of the material together with the crushed soaked gauze.

Respirator production waste consists of gauze treated with a 5% polymethyl methacrylate solution (PMMA in dichloroethane and perchlorovinyl fiber. Consumption of a 5% PMMA solution per 1 m2 gauze is 7.5-12.0 g. The ratio between gauze impregnated PMMA solution and 1: 1 perchlorovinyl fiber. Respirator waste is waste from a Petal type respirator,

Finishing-insulating plates can be made of any sizes depending on the size of the heated plates of the press.

For the tests, slabs with dimensions of 250 x 250 x 5 mm were manufactured.

Thus, the table shows that the method of obtaining the finishing-insulation plate of the type of fiberboard according to the invention allows not only to simplify the preparation of the pulp, also exclude the use of water, resin, the introduction of additional devices for the utilization and purification of process water from the technology, but also It allows to obtain products with a flexural strength of 3-4 times more than the known ones.

The resulting products have good sound insulation properties, the sound absorption coefficient at f 2000 Hz is 0.70 (see table).

Products are materials that are difficult to burn, and can be recommended for interior cladding, insulation and sound insulation of walls and partitions in individual construction and in building constructions.

Claims (1)

0 claims A method of making a finishing-isola of pion slabs by forming a carpet of fibrous mass and hot pressing it, which differs 5 so that, in order to simplify the technological process, improve the ecology, increase the flexural strength, save energy and materials, the fibrous mass is ready t 0 from the waste products of respirators by crushing them to a fiber size of 4-6 mm. be P 250300 45 5.56.0 0,70,7 eleven 4-5h-5 Hard to burn OjQbS 0.048 250 6 5.8 0.7 one 4-5 0.050 200-250 1.2-1.4 0.60 Combustible 250-350 2.0 0.65 12-30 10-12 Flammable . - - -. -.-- 1 .-- - - r-- i .........., - .., .., -.-. , i .i-i were carried out using the crucible stove method, fire tube, and testing — atmospheric pressure at an air temperature of 24 ° C. 0 6 5.8 0.7 one -5 0.050 200-250 1.2-1.4 0.60 Combustible 250-350 2.0 0.65 12-30 10-12 Flammable .........., - .., .., -.-. , i .i-i