CZ312095A3 - Composition for producing mineral fibers - Google Patents

Abstract

A biologically degradable mineral-fiber composition characterized by the following constituents in percent by weight: SiO2 50 to 65, Al2O3 less than 2, CaO 16 to 30, MgO 4 to 15, Na2O 8 to 20, K2O 0 to 2, B2O3 0 to 10, TiO2, Fe2O3, Cr2O3, BaO, MnO, P2O5 0 to 5.

Description

(57)

The biodegradable mineral fiber composition contains 50% to 65% by weight of SiO2, not more than 2% Al2O3, 16% to 30% CaO, 4% to 15% MgO, 20% to 20% Na2O, B2O3 to 10 may also contain K2O % and TiO2 and / or Fe2O3 and / or Cr2O3 and / or BaO and / or MnO and / or P2O5 up to 5%.

CZ 3120-95 A3

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The invention relates to a composition for producing ken that is biodegradable.

BACKGROUND OF THE INVENTION BACKGROUND OF THE INVENTION

Some mineral fiber compositions are known to be biodegradable.

The biodegradability of the mineral fiber compositions is very important as many studies have suggested that mineral fibers with a very small diameter i.e. less than 3 microns may be carcinogenic, whereas biodegradable mineral fibers of similar dimensions exhibit substantially less or no carcinogenicity at all.

However, not only the biological degradability, but also the mechanical and thermal properties of the mineral fibers or products thereof, as well as the good possibility of processing the compositions in the production of mineral fibers are of great importance. Mineral fibers are mainly used as insulation. Especially in this application, sufficient thermal stability of the mineral fibers is necessary in the industry.

Thus, the composition of the mineral fiber composition must allow its good processing by known methods in the manufacture of small diameter mineral fibers, for example by the nozzle passage method.

It is an object of the present invention to provide a novel mineral fiber composition which is characterized by biodegradability but has good thermal stability and is easy to process.

The invention is based on the discovery that this problem can be solved by a composition for the production of minerals consisting of silicon, calcium, magnesium, and sodium oxides. Such a mineral fiber composition has been shown to contain a combination of important properties, in particular biological degradability, thermal stability and good processability.

SUMMARY OF THE INVENTION

The above-mentioned conditions are met by the mineral fiber composition according to the invention, which consists of the following components:

component

SiO

Al 0

3

Cao

MgO

At 0

TiO, Fe 0, CrO, BaO, MnO, P 0 '2 3' 23 '' 2 5% by weight 50 to 65 at most 2 16 to 30 to 15 8 to 20 0 to 20 0 to 10 0 to 5

Fibers can be produced from the mineral fiber composition by means of a nozzle or rotary process. The obtained mineral fibers have good thermal stability and high biological degradability. The most preferred fiber diameter is 10 microns or less, it is preferred to produce fibers with a diameter of between 2.5 and 5 microns.

In one preferred embodiment, the composition consists of the following components:

component% by weight

sio 2 55 to 60 Al O 2 3 not more than 1,5 CaO 16 to 25 MgO 5 to 15 At 0 9 to 15 2 K 0 2 not more than 2

Β Ο

3

ΤΐΟ, Fe Ο, CrΟ, BaO, MnO, P Ο '2 3' 23 '' '2 £>

to 8 0 to 5

In another preferred embodiment, the composition is characterized by the following composition:

component% by weight

SiO

Al O

3

CaO

MgO

Na 0 2

K o 2

B O

3

TiO, Fe O, CrO, BaO, MnO, P0 '23' 23 '' '2 S to 59 at most 1.5 18 to 23 to 12 to 13 at most 1 to 30 0 to 3

The optimum MgO content is 6 to 12% by weight and in particular 8 to 12% by weight.

The optimum Cr 2 O 4 content is less than 1.5% by weight and in particular less than 1.0% by weight.

According to another embodiment of the composition according to the invention, this is characterized in that the boron oxide content is at most 4% by weight.

The standard powder test used by the German glass company was used to assess biodegradability. This method is simple and gives a sufficient degree of biodegradability. The method is described in L.Springer: Laboratoriumsbuch fíir die Glasindustrie, 3.

edition, 1950, Halle / S: W.Knapp Verlag.

The behavior of the fibers at temperature was assessed according to the Swedish method. This method uses a tube furnace with a horizontal working tube open on both sides and with a length of 350 mm and an inner diameter of 27 mm. In the center of the furnace is a small ceramic support plate (30x20x3mm) for storing the testovascular sample. The test specimen is 12x12x12mm or 12mm diameter at 12mm height. Hostota is 100kg / m ³ . The temperature increase is 5 ° C / min. A change in the height of the test sample is observed by a permanently reading optic.

Description of the drawing in the drawing

Figure 1 shows the thermal stability test procedure according to the Swedish method of the composition of Example 1.

Examples

The invention will be further described by means of several examples.

Example 1:

Mineral wool whose composition is as follows: component % by weight SiO 2 56 Al 0 0.5 2 3 CaO 20 May MgO 10 At 0 2 10 B 0 2 3 2.7

This composition can be processed well to 2.5 micron diameter mineral fibers by way of nozzles at a drawing temperature of 1330'C.

The standard powder test used by the German glass company found 35mg / kg, a value for very high biodegradability.

Using the Swedish method, thermal stability was found with a 5% reduction in height at 620 ° C, which can be seen from the attached figure, which shows the corresponding diagram. This pattern is represented by a dashed line.

Example 2:

Mineral wool whose composition is as follows:

component % by weight mol% SiO 2 56 52.75 Al 0 2 3 1.0 0.55 CaO 21 21.20 MgO 11 15.45 At 0 2 11 10,05 This composition is easy to process on mineral fibers with a diameter of 2.7 microns way through the nozzles at heat- you campaign 1310'C. At standard powder test, which uses German

The glass company found a value of 37mg / kg which is a value for very high biodegradability.

Using the Swedish method, thermal stability was found with a 5% reduction in height at 600'C, which can be seen from the attached diagram, which shows the corresponding diagram.

Claims (4)

PATENT CLAIMS A composition for the production of a mineral fiber which is biodegradable, characterized in that it comprises the following components: % by weight component sio 2 50 to 65 Al 0 2 3 not more than 2 CaO 16 to 30 MgO 4 to 15 At 0 8 to 20 2 K 0 0 to 2 2 B 0 0 to 10 2 3 TiO, Fe 0, Cr 0, BaO, MnO, P 0 2 '2 3' 2 3 '' '2 S 0 to 5 component SiO Al 0 2 3 CaO MgO Na 0 2 K o 2 B 0 2 3 TiO, Fe 0, Cr 0, BaO.MnO.P 0 2 '2 3 ⁷ 2 3 ^r ''2 S The mineral fiber composition according to claim 1, characterized in that it comprises the following components: % by weight 55 to 60 not more than 1,5 16 to 25 5 to 15 9 to 15 not more than 20 0 to 8 0 to 5 Ί The mineral fiber composition according to claim 1, characterized in that it comprises the following components: component SiO Al O 2 3 caO MgO Na O 2 K o 2 B 0 2 3 TiO, Fe 0, Cr 0, BaO, MnO, PO 2 '2 3' 23 '' '2 by weight 55 to 59 not more than 1,5 18 to 23 8 to 12 9 to 13 not more than 1 0 to 3 0 to 3 Mineral fiber composition according to any one of claims 1 to 3, characterized in that the boron oxide content is at most 4% by weight.