DE2207008C3 - Method for preventing the formation of stains and becoming blind during storage and transport of glass objects, in particular glass panes, through intermediate layers which are impregnated with organic acids Flachglas AG Delog-Detag, 8510 Fürth - Google Patents

Description

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The invention relates to a method of preventing staining and blinding during storage and when transporting glass objects, in particular glass panes, on the surface of which an organic one Acid-impregnated intermediate layer is applied.

It is known that when stacking glass objects, in particular glass panes, as a result of condensation water vapor changes on the glass surfaces in contact, leading to iridescence the windows and can lead to the appearance of stains. One has already tried this impairment to avoid the glass surfaces that the surfaces of the glass panes with a Powdered inert material or strips of newsprint and Swedish paper between the panes of glass be placed. Furthermore, it is already known to use the intermediate layers, for example the paper layers impregnate with a weak acid or with an acidic salt. For example, in FR-PS 11 74 658 a method of the type mentioned above is described in which the intermediate layer with citric acid is impregnated. GB-PS 3 94 635 and US-PS 29 73 089 also show the use with Acid salts or intermediate layers impregnated with non-volatile or slightly volatile acids.

This known method makes it possible to strongly suppress the formation of stains, but draws it glass panes stored in this way for long periods of time or transported over long distances now the pattern of the intermediate layer, e.g. B. the paper, on the glass and occurs in the further glass processing, e.g. B. in the mirroring, in the form of brown spots in the silver coating disturbing in appearance. This is due to the fact that the neutralization of the glass surfaces in the known The method depends on the strength of the contact between the impregnated intermediate layer and the glass pane, so that there, where the intermediate layer with special If there is high local pressure on the glass surface, better neutralization is achieved than on the Places with weaker local contact.

The invention is based on the object of a method of the type mentioned at the outset, in which the impairment of the glass surface by Intermediate layers also when storing the stacked glass objects, in particular glass panes, over a very long period of time or during transport over long distances is reliably prevented.

This object is achieved according to the invention. that a volatile organic acid with a boiling point around 100 ⁰ C is used to generate an acidic atmosphere between the glass surfaces.

In contrast to the known methods in which the glass surface is protected by direct contact with the impregnated intermediate layer, in the method according to the invention the intermediate layer is only used as a carrier for the continuously evaporating volatile organic acid. so that an acidic atmosphere is generated between the panes which, regardless of the local contact between the intermediate layer and the glass pane, reliably prevents any staining of the pane. The inventive use of a volatile organic acid with a boiling point of around 100 ^° C. means that the intermediate layers no longer appear on the glass pane, which in the known method is due to the fact that the intermediate bearings, naturally due to their structure, have different levels of contact with the glass surface, so that there are always places on the glass surface where there is no or only a bad conact between the glass and the intermediate layer.

Acetic acid with a boiling point of approximately has proven particularly useful as volatile organic acids 118 ° C and formic acid with a boiling point of around lOrC. The one stored in the intermediate layers According to the invention, volatile organic acid not only acts by generating the acidic atmosphere the places that are in direct permanent contact with the intermediate layer, but rather as a result of the volatility also on the places where there is no contact or only poor contact. This will make the Transfer of the interlayer structure to the glass surface is completely avoided.

A preferred embodiment of the invention is characterized in that newsprint is used as the paper and this is impregnated ^{with 0.25 g of acetic acid and 0.2 g of sulfuric acid per m 2.} With the addition of sulfuric acid, the in the reaction of the organic acid with the cellulose of the paper, z. B. by acetylation, cleaved ester occurring, whereby a metered release of the organic acid is achieved.

The surfaces of the glass panes of a glass stack in which an intermediate layer impregnated according to the invention used, show even after an unusually long storage time and after a transport in tropical countries no impairment.

Further features and advantages of the invention result

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ben themselves axis the demands. The invention is on Hand of an embodiment explained below.

Embodiment

Between the glass panes of a stack of panes measuring 58 × 110 cm, strips of newsprint are placed, each m ² impregnated with 0.25 g CHaCOOH and 02 g H2SO4. The discs are stored for 140 days in a climatic room at 45 ° C. and a relative humidity of 90 to 95%.

After storage, the disks were etched with dilute hydrofluoric acid in order to achieve this reinforcement effect to make any surface changes that are still invisible to the eye visible. The disks turned out to be completely blank in this sample and showed no painted areas. Even with a subsequent Mirroring the panes resulted in a completely shiny mirror.

Discs treated in the same way, between which normal newsprint and ammonium sulfate impregnated paper was placed, showed a strongly 'visible paper structure in the etching test. at The mirroring was evident on the glass panes, between which normal newsprint was placed was, strong brownish spots in the silver coating. Also the surfaces of the glass panes, between which Sweden paper and ammonium sulfate paper left the structure of the paper with brownish stains recognize in the silver coating.

The new interlayers are of course not only suitable as interlayers for panes of glass, but also also as intermediate layers for other similarly shaped glass objects, e.g. plates, lenses or the like

Claims (6)

Patent claims: 1. A method for preventing staining and becoming blind during storage and transport of glass objects, in particular glass panes, on the surface of which an intermediate layer impregnated with organic acids is applied, characterized in that a volatile organic acid is used to create an acidic atmosphere between the glass surfaces a boiling point around 100 ⁰ C is used. 2. The method according to claim 1, characterized in that acetic acid (boiling point 118 ° C) is used will. 3. The method according to claim 1, characterized in that formic acid (boiling point 101 ° C) is used. 4. The method according to any one of claims 1 to 3, characterized in that in per se known We used paper as an intermediate layer and this with the liquid acids with the addition of Sulfuric acid is soaked. 5. The method according to claim 4, characterized in that newsprint is used as paper and this is impregnated ^{with 0.25 g of acetic acid and 0.2 g of sulfuric acid per m 2.} 6. The method according to any one of claims 1 to 3, characterized in that the volatile organic Acid is introduced into an intermediate layer made of inert powder.