DE4421120A1 - Mineral fibre compsn. - Google Patents

Abstract

Mineral fibre compsn. consists of (in wt.%): 45-60 SiO2, 0-5 Al2O3, 7-18 CaO, 3-8 MgO, 8-18 Na2O, 0-4 K2O, 1-12 B2O3, 0-4 P2O5, 0-5 impurities, 8-22 Na2O + K2O, and 10-25 CaO + MgO.

Description

The invention relates to a mineral fiber together tion that is biodegradable.

There are some mineral fibers in the art described that they are are biodegradable.

The biodegradability of Mineralfaserzusam Compositions is of great importance insofar as Some research indicates that mineral fibers with very small diameters in the range of less than 3 microns could be carcinogenic, biodegradable Mineralfa but show no carcinogenicity of such dimensions.

In addition to biodegradability, however, are the mechanical and thermal properties of Mineralfa or the products derived therefrom, the stock the mineral fibers and the processability of the mineral fibers Mineral fiber composition of crucial importance tung.

For example, mineral fibers are becoming more abundant Insulation purposes used. For these purposes, a suff Moisture resistance required.  

Furthermore, the mineral fiber composition must be a verar Beitbarkeit according to known methods for the preparation of Mineral fibers with a small diameter, such as the centrifugal technique, in particular the centrifugal inner technology, for example (this technique is used in U.S. Patent 4,203,745).

The object of the invention is the creation of a new Mineral fiber composition characterized by biological Degradability is excellent, a good stability or Re Resistant to moisture and is easily verar to work.

The invention is based on the finding that these Task solved by a mineral fiber composition which may contain significant amounts of alkali oxides and Includes alkaline earth oxides, and optionally phosphorus oxide contains.

It has been found that such a mineral fiber together the combination of the necessary properties, namely biodegradability, resistance to moisture activity and good processability.

The invention is a mineral fiber together tion that is biodegradable is by the following components in weight percent:

SiO₂ | 45 to 60 Al₂O₃ 0 to 5 CaO 7 to 18 MgO 3 to 8 Na₂O 8 to 18 K₂O 0 to 4 B₂O₃ 1 to 12   P₂O₅ 0 to 4 various 0 to 5 Na₂O + K₂O 8 to 22 CaO + MgO 10 to 25

The mineral fiber compositions according to the invention are processable with the centrifugal technique. The obtained Fibers have good resistance to moisture. about Surprisingly, the mineral fiber compositions show biodegradability.

Preferably, the mineral fiber according to the invention Compositions the following components in weight percent on:

SiO₂ | 50 to 58 Al₂O₃ 0 to 3 CaO 10 to 18 MgO 4 to 8 Na₂O 10 to 17 K₂O 0 to 2 B₂O₃ 3 to 12 P₂O₅ 0.5 to 4 various 0 to 2 Na₂O + K₂O 10 to 20 CaO + MgO 12 to 24

In particular, the mineral fiber according to the invention Compositions the following components in weight percent on:

SiO₂ | 50 to 57 Al₂O₃ 0.5 to 1.5 CaO 11 to 16 MgO 4.5 to 6   Na₂O 12 to 17 K₂O 0.5 to 1 B₂O₃ 5 to 11 P₂O₅ 1 to 3 various 0.5 to 1.0 Na₂O + K₂O 11 to 17 CaO + MgO 16 to 22

Preferably, the mineral fiber according to the invention less than 55% of silica on.

It is also particularly preferred that the Together More than 5 percent by weight of magnesium oxide contain.

The biodegradability can be improved by the addition of Phosphorus pentoxide can be increased. The invention Therefore, compositions preferably contain at least 0.5 weight percent P₂O₅.

The moisture resistance of the mine according to the invention Fiberglass compositions was prepared by means of a standard method, known as the "DGG method". at The DGG method uses 10 g of finely ground mineral a grain size between about 360 and 400 microns in 100 ml Water at boiling point held for 5 hours. After faster Cooling the material, the solution is filtered and one certain volume of the filtrate evaporated to dryness. The weight of the resulting dry material allowed to calculate the amount of mineral dissolved in the water. The amount is in milligrams per gram of the examined Minerals indicated.

The biodegradability of the mine according to the invention Compositions were investigated by adding 1 g of the  Mineral powder, as described in the DGG method, in a physiological solution of the following composition introduced with a pH of 7.4:

NaCl 6.78 NH₄Cl 0.535 NaHCO₃ 2,268 NaH₂PO₄H₂O 0.166 (Na₃ citrate) 2H₂O 0.059 glycine 0,450 H₂SO₄ 0,049 CaCl₂ 0,022

Dynamic experimental conditions were chosen, as they were described in Scholze and Conradt. The flow speed was 300 ml / day. The trial period was 14 days. The results are expressed as percent SiO₂ in the Solution × 100 given after 14 days.

The invention will be described below by way of examples described in more detail.

Example 1

It was a composition of the following ingredients in Weight percent made:

SiO₂ 56 Al₂O₃ 0.5 CaO 15 MgO 4.0 Na₂O 16.2 K₂O 0.8   B₂O₃ 5.5 P₂O₅ 1.5 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 32 mg / g determined.

The above-described study of biological Degradability gave a value of 615.

example 2

It was a composition of the following ingredients in Weight percent made:

SiO₂ 54.5 Al₂O₃ 0.5 CaO 15 MgO 4.0 Na₂O 16.2 K₂O 0.8 B₂O₃ 5.5 P₂O₅ 3.0 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 32 mg / g determined.  

The above-described study of biological Degradability gave a value of 690.

example 3

It was a composition of the following ingredients in Weight percent made:

SiO₂ 56 Al₂O₃ 0.5 CaO 13 MgO 6 Na₂O 16.2 K₂O 0.8 B₂O₃ 5.5 P₂O₅ 1.5 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 32 mg / g determined.

The above-described study of biological Degradability gave a value of 615.  

example 4

It was a composition of the following ingredients in Weight percent made:

SiO₂ 54.5 Al₂O₃ 0.5 CaO 13 MgO 6 Na₂O 16.2 K₂O 0.8 B₂O₃ 5.5 P₂O₅ 3 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 32 mg / g determined.

The above-described study of biological Degradability gave a value of 690.

example 5

It was a composition of the following ingredients in Weight percent made:

SiO₂ 56 Al₂O₃ 0.5 CaO 16 MgO 6   Na₂O 13.2 K₂O 0.8 B₂O₃ 5.5 P₂O₅ 1.5 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 22 mg / g determined.

The above-described study of biological Degradability gave a value of 585.

example 6

It was a composition of the following ingredients in Weight percent made:

SiO₂ 54.5 Al₂O₃ 0.5 CaO 16 MgO 6 Na₂O 13.2 K₂O 0.8 B₂O₃ 5.5 P₂O₅ 3 various 0.5

This mineral composition could with the centrifugal technology are processed.  

Using the DGG method described above was a Value of 22 mg / g determined.

The above-described study of biological Degradability gave a value of 660.

example 7

It was a composition of the following ingredients in Weight percent made:

SiO₂ 54.5 Al₂O₃ 1 CaO 16 MgO 6 Na₂O 13.2 K₂O 0.8 B₂O₃ 6.5 P₂O₅ 1.5 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 17 mg / g determined.

The above-described study of biological Degradability gave a value of 570.  

example 8

It was a composition of the following ingredients in Weight percent made:

SiO₂ 53 Al₂O₃ 1 CaO 16 MgO 6 Na₂O 13.2 K₂O 0.8 B₂O₃ 6.5 P₂O₅ 3 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 17 mg / g determined.

The above-described study of biological Degradability gave a value of 645.

example 9

It was a composition of the following ingredients in Weight percent made:

SiO₂ 50.5 Al₂O₃ 1.5 CaO 16 MgO 8th   Na₂O 12.2 K₂O 0.8 B₂O₃ 6.5 P₂O₅ 4 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 7 mg / g determined.

The above-described study of biological Degradability gave a value of 660.

example 10

It was a composition of the following ingredients in Weight percent made:

SiO₂ 50.5 Al₂O₃ 1.5 CaO 18 MgO 6 Na₂O 10.7 K₂O 0.8 B₂O₃ 8th P₂O₅ 4 various 0.5

This mineral composition could with the centrifugal technology are processed.  

Using the DGG method described above was a Value of 7 mg / g determined.

The above-described study of biological Degradability gave a value of 660.

example 11

It was a composition of the following ingredients in Weight percent made:

SiO₂ 55 Al₂O₃ 1 CaO 11 MgO 5 Na₂O 14.2 K₂O 0.8 B₂O₃ 11.5 P₂O₅ 1 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 31 mg / g determined.

The above-described study of biological Degradability gave a value of 600.  

example 12

It was a composition of the following ingredients in Weight percent made:

SiO₂ 56.5 Al₂O₃ 0.5 CaO 11 MgO 5 Na₂O 14.2 K₂O 0.8 B₂O₃ 10.5 P₂O₅ 1 various 0.5

This mineral composition could with the centrifugal technology are processed.

Using the DGG method described above was a Value of 36 mg / g determined.

The above-described study of biological Degradability gave a value of 620.

Claims (5)

A mineral fiber composition which is biodegradable, characterized by the following components in weight percent: SiO₂ | 45 to 60 Al₂O₃ 0 to 5 CaO 7 to 18 MgO 3 to 8 Na₂O 8 to 18 K₂O 0 to 4 B₂O₃ 1 to 12 P₂O₅ 0 to 4 various 0 to 5 Na₂O + K₂O 8 to 22 CaO + MgO 10 to 25 2. mineral fiber composition according to claim 1, characterized marked by the following components in weight percent: SiO₂ | 50 to 58 Al₂O₃ 0 to 3 CaO 10 to 18 MgO 4 to 8 Na₂O 10 to 17 K₂O 0 to 2 B₂O₃ 3 to 12 P₂O₅ 0.5 to 4 various 0 to 2 Na₂O + K₂O 10 to 20 CaO + MgO 12 to 24 3. mineral fiber composition according to claim 1 or 2, characterized by the following components in Ge weight percent: SiO₂ | 50 to 57 Al₂O₃ 0.5 to 1.5 CaO 11 to 16 MgO 4.5 to 6 Na₂O 12 to 17 K₂O 0.5 to 1 B₂O₃ 5 to 11 P₂O₅ 1 to 3 various 0.5 to 1.0 Na₂O + K₂O 11 to 17 CaO + MgO 16 to 22 4. mineral fiber composition according to any one of claims 1 to 3, characterized in that the content of Silica less than 55 weight percent be wearing. 5. mineral fiber composition according to any one of claims 1 to 4, characterized in that the content of Magnesium oxide is more than 5 percent by weight.