DE2806367A1 - THERMAL, INSULATING MATERIAL - Google Patents

Description

Thermal insulating material

The invention relates to thermally insulating material.

A material with excellent thermal insulation properties can come from a lViischunp; from finely divided fine-pored silica aerea, a reinforcement fiber such as alumina silicate and optionally a special comminuted opacifier. These materials provide excellent heat insulation, when under pressure and self-binding with or without the use of special binding agents to a 'density im Range from 0.16 to 0.48 kg / m can be compacted, and are also used as the bottom layer of thermally and electrically insulating material in heating devices for elektrzi see cooking devices can be used with a smooth surface, as described for example in British patent specification 1.433 4-78.

Using such a material at high temperatures has been found to sinter and shrink. This is mostly undesirable because shrinkage leads to the formation of cracks and air gaps, the insulating properties of which are worse than those of the material itself. Such materials have a limit temperature of about 1000 G ₅ at which they are useful because they progressively sinter and shrink above this.

Heretofore, it has been believed that these temperatures are the highest at which these materials are used can. This was based on the facts that from

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the three components mentioned silica, even if it is wetted in a form as pure as possible, has the lowest temperature at which it "sintered and begins to shrink, it is in the mix by weight and volume in the largest amount.

It has now been shown in the invention that the highest temperature at which these insulating materials can be used can be increased in the Iraxis by including aluminum oxide in this mixture. According to the invention, therefore, an insulating material is created which contains an intimate mixture of fine-pored silica airgel and reinforcing fibers, the mixture containing aluminum oxide in an amount of up to 12 percent by weight. The heat-insulating material according to the invention is subject to only slight »shrinkage when used at the same high temperature as previous materials and can also often be used at temperatures which are more than 100 ⁰ O above those of the existing materials, whereby they only shrinkage permissible subject. Therefore, the materials according to the invention can be used at temperatures of 1100 and also 1200 ° G without excessive shrinkage due to sintering.

Dien surprised when fibers made of aluminum oxide were used as reinforcing fibers used as these fibers are only used to give the compact material mechanical strength to rent. If fibers such as glass or mineral wool fibers have been tried instead of alumina silicate, There was also strong shrinkage at a relatively low temperature, e.g. at around °

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The fibers used so far were therefore chosen so that they are stable at least at the temperature, which have significant sintering of silica and are commercially available. It was also surprising that the addition of alumina particles to the mixture reduced shrinkage results as the silica and other components can remain unchanged.

Fine-pored silica airgel is a gel in which the liquid phase has been replaced by a gaseous one in such a way as to avoid the shrinkage that would occur if the gel had been dried directly from a liquid. An essentially identical structure can, however, be obtained by controlled precipitation from a silica solution, the temperature and pH value being controlled during the precipitation in order to obtain an open, latticed precipitate. The term "fine-pored silica airgel" used here contains not only the fine-pored silica airgel described, but also equivalent fine-pored open lattice silica structures such as damped pyrogenic or electro-thermal types in which the average final particle size is less than 100 millimicrons. These substances can be produced by high temperature hydrolysis of silicone tetrahalide such as silicone tetrachloride.

An example of a corresponding fine-pored silica airgel is the product sold by Degussa G.m.b.H. can be obtained under the trademark "Aerosil". Other suitable fine-pored - fine-pored silica aerogels can be obtained from Cabot Corporation under the trademark "Oaboail" and Moneanto the trademark "Santosel" can be obtained.

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According to the invention, the kischungen preferably contain in addition, a separate opacifier that is intimately mixed with the airgel. Thus, under under certain circumstances one of the other components, e.g. carbon fibers, act as an opacifier. Example of separate Opacifiers are phase-stabilized black ferrosoferric oxides, titanium dioxide, odorous dioxide, zirconium oxide, Iron oxide, manganese dioxide, ilmenite, eutilite or soot. The amounts of the opacifying agent are preferably in the range from 1 to 100% by weight of the silica airgel and better between 5 and 80% by weight of this airgel.

As mentioned, alumina can be used as an additional special Component, present as a pas or part of these and as an additional separate component.

In cases in which the or an aluminum oxide is present as a fiber, the aluminum oxide fibers used should at least be 90% and preferably at least 95% by weight of alumina contain. Examples of suitable alumina fibers are those sold under the trademark Saffil Imperial Chemical Industries, Ltd. can be obtained.

As already mentioned, the reinforcing fibers usually only make up a relatively small proportion of the Substances according to the invention and, within such limits, the greater the proportion of aluminum oxide fibers smaller is the shrinkage of the resulting material at high temperatures. The proportion of the to be included Fibers is due, among other things, to a reduction in the thermal insulation properties with increasing proportions

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the paser and through problems meciianisciier strength of the material is limited, especially when it is cast. It therefore appears that about 12 and preferably 10% by weight Alumina fibers are a practical upper limit, while a more preferred proportion of alumina fibers to be added is in the range of 1 to 7% by weight of the total material lies.

Not all fibers in the materials of the invention require alumina fibers. Instead of part of the Now used aluminum oxide silicate fibers or other fibers, e.g. quartz fibers can be replaced by aluminum oxide fibers be replaced. The relative proportion of the alumina fibers to all of the fibers is preferably between 6 and 100% by weight.

If the materials according to the invention have fine-pored silica airgel included are at least one alumina fiber and opacifying agents, the preferred percentages by weight of these components as follows:

Aluminum oxide airgel preferably 50 to 97, better 60 to entire fibers ■ "1" 10 "2" η opacifier "2" 4-0 "25"

Instead of using aluminum oxide fibers or finely divided aluminum oxide added to them, can be used as additional component may be included. As with the pasers, the aluminum oxide used should be at least 90% by weight and preferably contain at least 95% by weight of aluminum oxide. An example of a suitable alumina powder is below the trademark "Alox" of Degussa GmbH known.

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If the substances according to the invention; fine-pored silica airgel, Reinforcing fibers that contain aluminum oxide may or may not hold opacifiers and aluminum oxide included as an additional component, the preferred or better weight percentages are as follows:

Silica airgel preferably 50 to 97, better 60 to

Fiber "0.5" 10 "2"

Opacifier "2" 40 "25"

Aluminum oxide "0.5" 10 "1"

The materials according to the invention can be used in the manufacture of insulating materials and, in particular, of panels British Patents 1,350,661 and 1,247,674 are used are referred to in the manufacture of such panels from the thermal insulating material will.

The thermal insulating material according to the invention can also be used as an electrical and thermal insulating material electric heaters are used. Examples of such devices are heating devices for hot plates with smooth surface, especially where a heating element made of a coiled bare wire on an insulating layer rests on or is embedded in this. The material according to the invention is particularly useful as a support layer of thermal and electrical insulating material in heating devices according to British patent specification 1 433 4-78 is expedient, to which particular reference is made.

According to one feature of the invention, however, it is found that the heating elements for hot plates with a smooth surface using the insulating materials according to the invention without an intermediate layer of connected reinforcing fibers according to British patent specification 1 433 478

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can be provided. This has the advantage that the heating element is more bound because this layer is omitted Fibers can be made slightly smaller in overall depth.

According to the invention there is therefore an electrical heating device specified for hotplates with a smooth surface, which has a carrier layer made of thermal and electrical contains insulating material that directly carries an electrical heating element in the form of a spiral wound bare wire and is attached to the insulating material by metal wire clips, which over parts attack the wire wrapping next to the surface of the base layer and into the soil layer, but not all the way through walk. The material of the carrier layer contains an intimate mixture of fine-pored silica airgel and reinforcing fibers and optionally an opacifier. The mixture contains alumina in an amount up to 12% by weight.

According to British patent specification 1 4-J3 478 this can Bottom layer of thermal and electrical insulating material be such that the heating element only through Friction of this material is held on the clamps.

It is not essential that the surface of the support layer The insulation material is exactly flat and therefore there may be a slight spiral impression if it is so shaped that it supports the orientation of the heating element.

A heating device for hot plates with a smooth surface according to the invention is loaded with the help of the drawing

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wrote that a cross-section through this facility shows.

The device 10 includes a plate-shaped base 12 of thermally and electrically insulating material, the fine-pored silica airgel according to the invention Opacifiers such as titanium dioxide and aluminum oxide fibers and / or contains crushed alumina.

The bottom 12 is in a plate shape with an annular upstanding side wall 12a and one practical cast flat top surface 14. Immediately on the Surface 14 lies a heating element 16 with a spirally wound bare wire. At the ends of the element 16 electrical feed lines 18 are connected, the are sheathed with electrical and thermal insulation. The turns of the heating elements are determined by terminals 24, which go into the ground but not quite through it. They are caused by friction between the clamps and the material of the bottom 12 held. The bottom sits in a metal protective pan 20.

On the upper edge of the side wall 12a lies a thin ring 22 made of a composition of reinforcing fibers and strikes against the underside of a glass ceramic slide (not shown) when the device is in the hotplate is located. However, the bottom 12 can also have a flat surface 14 without an annular side wall 12a or only one have a very small side wall. Also, a much thicker ring 22 of a bonded composition of ceramic Fibers are provided. The advantage of this is that the ring 22 is much more mechanical Strength than that of the material of the bottom 12 has. The ring 22 can also be much thicker.

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Because the material of the floor is 12 aluminum oxide fibers and / or contains crushed aluminum oxide, it may have a high resistance to shrinkage at temperatures of the heating element, which rests directly on the surface 14 of the floor. Because there is no additional Disc of ceramic material is necessary between the surface 14 and the heating element, the Overall depth of the device 10 compared to the heating element according to British patent specification 1,433,478 less being held.

example 1

A thermal insulation material according to the invention for use as floor 12 consists of a mixture of:

fine-pored Eieselsaureaerogel (Aerosil) in 62 parts by weight Titanium dioxide "31"

Alumina Fibers (Saffil) "7"

Example. 2

Another material according to the invention with crushed aluminum oxide consists of an intimate mixture of:

in parts by weight

fine-pored Eieselsaureaerogel

(Aerosil) "60»

titanium dioxide "31"

"7" alumina silicate fibers

Aluminum dioxide (Alox) "2"

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Claims (15)

Claims il Thermal insulation material characterized by an intimate mixture of a fine-pored silica airgel and reinforcing fibers with aluminum oxide in an amount up to 12 percent by weight. 2. Material according to claim 1, characterized in that it additionally contains an opacifier. 3. Material according to claim 1, characterized in that it is next to the fine-pored silica airgel and one Opacifier contains alumina fibers in a ratio of up to 12 percent by weight. 4 ·. Material according to claims 1 and 2, characterized in that the opacifying agent is a phase stabilizing 809833/1084 BORO MONKS: TELEX: TELEGRAM: PHONE: BANK ACCOUNT: CHECK ACCOUNT: ST. ANNASTR. 11 1-85644 INVENTION BERUN BERLIN 31 W. MEISSNER, BLN-W 8000 MONKS 22 INVEN d BERLIN 030/891 6037 BERLINER BANK AG. 12282-109 TEL: 089/22 3544 030/89223 82 3695716000 tes black ferrosoferric oxide, iron oxide, manganese oxide or soot. 5. Material according to the .Jisprüchen 2 to 4 ·, characterized in, that the proportion of opacifier between 2 and 100 percent by weight of the silica. 6. Material according to claim 5> characterized in that the proportion of opacifier between 5 and 80 percent by weight the silica lies. 7. Material according to the preceding claims, characterized in that at least 1 to 7 wt. ^ O aluminum oxide fibers are. 8. Material according to claims 1 to 6, characterized in that there is at least aluminum oxide fibers in the following Composition includes: Silica airgel 50 to 97 percent by weight fiber 1 ⁿ 10 " ! Opacifier 2 "40" 9 · Material according to claim 8, characterized by the following . Composition: Silica airgel 60 to 73 percent by weight fibers 2 "7" Opacifier 25 "40" 10. Material according to the preceding claims with aluminum oxide as an additional component, characterized by the following composition: Silica airgel 50 to 97 percent by weight Fibers 0.5 "20" Opacifier 2 "40" Aluminum Oxide 0.5 "10" - 3 -809833/1084 11. Material according to claim 10, characterized by the following composition: Silica airgel 60 Ms 72 Paser 2 "7 Opacifier 25 "4-0 Alumina 1 "5 12. Material according to the preceding claims, characterized by using an electric hotplate with a smooth surface with a heating element and thermal insulation in the form of a carrier layer under the element 13. Material according to claims 1 to 11, characterized in that by using it as a porous covering of fibrous material. 14. Material according to claims 1 to 11, characterized by using it as an insulating plate made of a compressed block of thermal insulating material with an outer porous envelope in a state of tension, the block being penetrated by particles of the insulating material is bound to the block surface in pores of the envelope, which is under pressure. 15. Material according to claims 1 to 11, characterized in that that it directly carries an electrical heating element when used as a heating device, which the Has the form of a spirally wound bare wire and attached to the insulating material by metal wire clips which attack through parts of the wire windings next to the surface of the carrier layer and penetrate into the soil layer, but don't go all the way through it, and 0 9 8 3 3/1084 that the t / iukerial of the door smell comes from an intimate luischunp; fine-pored Kieuolsiiure-aero ^ oil and "Verötärkungsfasem consists, and that the fouling aluminum oxide in a ^ on .e up to 12 wt., "contains" 809833/1084