Compositions – Heat or sound insulating
Reexamination Certificate
2002-10-11
2004-08-10
Koslow, C. Melissa (Department: 1755)
Compositions
Heat or sound insulating
C501S154000, C501S133000, C501S080000, C219S531000, C219S460100
Reexamination Certificate
active
06773618
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a microporous thermal insulation molding comprising compressed thermal insulation material containing finely divided metal oxides in the form of pyrogenic silica (HDK) and electric-arc silica, as well as opacifiers, fibers and additives.
2. Field of the Invention
Such microporous thermal insulation moldings are known and described, for example, in U.S. Pat. No. 4,985,163.
The finely divided metal oxides preferably used in such microporous thermal insulation moldings are pyrogenic silicas including electric-arc silicas, precipitated silicas or silicon dioxide aerogels and also analogously prepared aluminum oxides and mixtures thereof. To achieve good thermal insulation properties these finely divided oxides possess very high specific surface areas which preferably lie in the range of 50-700 m
2
/g (measured by BET). As a result of these large surface areas, these oxides have a very strongly pronounced ability to adsorb polar substances. As is known, they therefore act as very effective drying agents and in the natural atmosphere readily take up water. Accordingly, the same behavior is shown by the microporous thermal insulation moldings produced therefrom. In practice, therefore, moisture absorption by the microporous heat insulation moldings can occur during storage and this absorption cannot be prevented. If in practical use these microporous thermal insulation moldings are now exposed to high thermal energy within a short time period, there is explosive formation of steam which destroys the structure of the thermal insulation molding. This effect occurs, for example, in microporous thermal insulation moldings used as thermal insulation in radiative heating units for ceramic hotplates, if these radiative heating units are brought to red heat by means of the customary resistance heating elements at customary intervals of preferably from 1 to 8 seconds.
It is known from EP 618399 (corresponds to U.S. Pat. No. 5,556,689) that the moisture which is taken up by commercially available thermally insulating shaped parts can be discharged as steam by means of defined channel pores without the molding being destroyed.
WO 01/09057 (applicant Ceramaspeed) describes thermal insulating moldings with an electric-arc silica content of 10% to 99.5% by weight and a carbon content of 0.5-6% by weight. The shaped part is hardened during a heat treatment step which takes place at over 400° C. It is stated on page 2, lines 10-14 of this application that, at a comparable density, the pressed parts comprising electric-arc silica are softer than parts without electric-arc silica. This is compensated for by hardening on the basis of the carbon content.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a thermal insulation molding comprising compressed thermal insulation material containing finely divided metal oxides in the form of pyrogenic silica (HDK®) and electric-arc silica and an opacifier, which has a considerably lower water absorption yet maintains the good thermally insulating, mechanical and electrically insulating properties of known thermal insulation moldings.
The trademark HDK® is applied to a product the main ingredient of which is pyrogenic silica.
The above object is achieved by a thermal insulation molding having a density of 150-500 kg/m
3
, comprising a thermal insulation material, containing 5%-75% by weight of pyrogenic silica (HDK®), 5%-50% by weight of electric-arc silica, 5%-50% by weight of opacifier, wherein the electric-arc silica has a bulk density of <200 kg/m
3
, a carbon content of <0.1% by weight, an alkali metal oxide content of <0.2% by weight, an alkaline-earth metal oxide content of <0.3% by weight, an SO
3
content of <0.05% by weight and a specific surface area of >30 m
2
/g. Each percent by weight is based upon the total weight of the thermal insulation molding.
The electric-arc silica preferably has a bulk density of 70 kg/m
3
to 190 kg/m
3
, a carbon content of 0% to 0.05% by weight, an alkali metal oxide content of 0.02% to 0.18% by weight, an alkaline-earth metal oxide content of 0.05% to <0.3% by weight, an SO
3
content of 0% to <0.05% by weight and a specific surface area of >30 to 48 m
2
/g. Each percent by weight is based upon the total weight of the thermal insulation molding.
The thermal insulation molding according to the invention preferably also contains 0%-10% by weight of inorganic fiber material, 0%-5% by weight of organic fiber material, 0%-30% by weight of additives and 0%-2% by weight of inorganic binders. Each percent by weight is based upon the total weight of the thermal insulation molding.
The thermal insulation material preferably consists of the materials which have been listed herein.
It is particularly preferable for the thermal insulation molding to have a density of 200-450 kg/m
3
and to consist of 10%-70% by weight of pyrogenic silica (HDK®), 10%-40% by weight of electric-arc silica, 10%-45% by weight of opacifier, 1%-7% by weight of inorganic fiber material, 0%-4% by weight of organic fiber material, 0%-20% by weight of additives and 0%-1% by weight of inorganic binder. Each percent by weight is based upon the total weight of the weight of the thermal insulation molding.
It is especially preferred for the thermal insulation molding to have a density of 250-400 kg/m
3
and to consist of 15%-60% by weight of pyrogenic silica (HDK®), 15%-30% by weight of electric-arc silica, 20%-40% by weight of opacifier, 2%-5% by weight of inorganic fiber material, 0-3% by weight of organic fiber material, 5%-15% by weight of additives and 0%-0.7% by weight of inorganic binder. Each percent by weight is based upon the total weight of the thermal insulation molding.
Standard electric-arc silicas, e.g. Elkem Norway Microsilica 983 and 971 produced by Elkem (4675 Kristiansand, Norway), or Supersil produced by Zirkon-Mineral GmbH (Erftstadt), or Microfume A produced by Pechiney (Düsseldorf) and similarly produced Al
2
O
3
-rich products, such as “RW-Aloxil” produced by RW Silicium GmbH (Pocking), have a carbon content of >0.6% by weight and a bulk density of greater than 300 kg/m
3
(typically >400 kg/m
3
) (e.g. WO 01/09057 p. 2 lines 32 ff.).
Surprisingly, it has been found that a molding which contains a chemically very pure electric-arc silica with a bulk density of <200 kg/m
3
has a reduced tendency to absorb water. The use of this electric-arc silica, which partially replaces the HDK® in the standard thermal insulation molding, allows the production of thermal insulation moldings according to the invention by means of a useful production process. Their density is no higher than that of conventional thermal insulation moldings and they satisfy the high demands imposed on the thermal properties of thermal insulation moldings. The mechanical properties and high-temperature properties such as shrinkage required of thermal insulation moldings are also achieved. Although up to 50% by weight of the HDK® which is customarily used has been substituted by the selected electric-arc silica having the properties mentioned, no difference between the thermal insulation molding according to the invention and conventional thermal insulation moldings was found, except that the water absorption by the inventive material is reduced.
The thermal insulation moldings according to the invention usually have the following characteristic variables:
flexural strength >0.15 N/mm
2
;
compressive strength >1.0 N/mm
2
;
coefficient of thermal conductivity <0.025 W/mK; and
electrical resistance >2000 M&OHgr;.
The use of electric-arc silica to produce thermal insulation moldings is already known in the prior art. However, the use of electric-arc silica in addition to precipitated silicas, etc. is generally mentioned as a suitable material, but electric-arc silica is never preferably used. Electric-arc silicas generally have high levels of alkali metal, alkaline-earth metal and soot/carbon impurities. Moreover, they
Eyhorn Thomas
Rell Andreas
Collard & Roe P.C.
Koslow C. Melissa
Wacker - Chemie GmbH
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