DE19905108A1 - Ultraviolet light absorbing glass, method of making and using the same - Google Patents

Abstract

The action of light can modify the taste of food products which are contained in glass containers. The inventive glass contains vanadium pentoxide for counteracting these modifications of taste. According to the invention, a mixture of vanadium pentoxide and phosphorus oxide is used since pure vanadium pentoxide is relatively expensive. Said mixture can be obtained as an economical aggregate. A glass of this type is preferably used as a white glass for bottles and jars for holding food products. The glass containing vanadium pentoxide and phosphorus oxide is particularly suitable for beer bottles. Bottles of this type have particularly good light protection properties if they consist of so-called white glass.

Description

The invention relates to a glass with light protection properties, a method for producing such a glass and preferred uses of the same.

Ordinary glass has insufficient protection from exposure to light. In particular, one thing is missing Reaching absorptivity of ultraviolet light. In Increasingly, glass is used to protect against light effects, in particular ultraviolet light, required. This is especially true for colorless or weakly colored glass, which is used for packing various life medium, especially beverages such as beer will.

There are several known ways to make a glass create protection against the effects of light through esp special absorption of ultraviolet rays is guaranteed. The desired light protection effects are achieved with these glasses achieved through relatively complex measures. Such well-known ultraviolet light absorbing glasses are therefore quite expensive.

The invention is therefore based on the object of a cost cheap glass with light protection properties, a simple ver drive to the production of such a glass and advantageous To create uses of the same.

A particularly ultraviolet light absorbing glass for The solution to the stated problem has the features of claim 1 on. The addition of vanadium gives the glass UV rays absorbing properties, so that the glass is protected from light is. By using an aggregate, the vanadium contains, does not need pure vanadium (vanadium oxide) ver to be used, but only a cheaper aggregate, the vanadium oxide as a constituent among other constituents share contains. One such "impure" aggregate is cheaper than pure vanadium oxide.

The aggregate is preferably a residue substance, the vanadium oxide as a vanadium-donating component contains. Such residues fall during other processing processes and can thus be relatively inexpensive procure.

A glass for solving the problem mentioned at the beginning has the The composition of claim 5. So become light protection of the glass used vanadium pentoxide and phosphorus oxide, the UV rays absorbing properties being the Vanadium pentoxide gives the glass, while phosphorus oxide acts as a Accompanying material is used to keep the use expensive pure To bypass vanadium pentoxide. It has been shown that the phosphorus oxide in the glass composition is not detrimental affects, in particular the light protection properties of the glass not decreased. Preferably the proportion is vanadium Pentoxide and phosphorus oxide are about the same size.

Furthermore, the invention provides the visual Color impression of the see-through or transparent glass like this to be kept as low as possible. It has been shown that with such a (transparent and colorless) glass the light protective effect of the added vanadium pentoxide in the first place or is particularly clearly effective.

A method for solving the aforementioned problem has the measures of claim 8. Accordingly, the Her Position of the UV-absorbing glass as the raw material a vanadium-containing aggregate added. Through the Use of the vanadium-containing aggregate from the raw Amount of substance for the glass is only added, can the glass according to the invention is particularly inexpensive and simple produce. This is especially true if after a further advance hit the invention as a vanadium-containing aggregate Residual material is used.

The residue used as aggregate only needs 40- 60% by weight, in particular up to about 50% by weight, vanadium pentoxide to contain in order to achieve the desired light protection of the glass reach. It can therefore be a relatively impure residue material or aggregate can be used.

Preferred uses for solving those mentioned at the outset The task results from claims 13 to 15. Accordingly a glass according to one or more of claims 1 is suitable to 7 especially for the formation of food containers. It can be glasses or bottles.

Another preferred use of the glass according to the Claims 1 to 7 relates to a glass or a bottle for food.

A particularly advantageous use for the glass after a or more of claims 1 to 7 is on a bottle for Drinks, especially beer, directed. Preferably you can Use glass according to one or more of Claims 1 to 7 for a colorless or color-neutral transparent or through clear bottle for beer, both alcoholic and also non-alcoholic beer or other drinks.

Below is a preferred embodiment of a Light protection glass specified. This has the following Composition:

SiO ₂ 68.0-74.0 wt% Al ₂ O ₃ 0.5-3.0% by weight CaO 8.0-12.0% by weight MgO 1.5-5.0 wt% Na ₂ O 10.0-14.0% by weight K ₂ O 0.0-2.0% by weight Fe ₂ O ₃ 0.0-0.2% by weight SO ₃ 0.01-0.3% by weight P ₂ O ₅ 0.03-0.3% by weight V ₂ O ₅ 0.03-0.3% by weight

The above components are in one Share in the glass according to the invention that their sum optionally together with other components, in particular Element oxides and / or color components, the proportion of which is below the practical limit of detection is 100% by weight.

Within the stated range from 0.03 to 0.3% by weight, the proportion of vanadium pentoxide (V ₂ O ₅ ) and phosphorus oxide (P ₂ O ₅ ) is approximately the same, so that preferably a certain proportion of vanadium pentoxide always has a similar proportion of phosphorus oxide faces. The proportion of vanadium pentoxide is preferably somewhat greater than the proportion of phosphorus oxide, specifically by about 10%.

The glass composed of the components mentioned is completely or at least largely colorless and transparent or translucent.

An example of a light protection glass has the following combination based on:

SiO ₂ 71.2% by weight Al ₂ O ₃ 1.2 wt% CaO 10.3% by weight MgO 3.4 wt% Na ₂ O 12.7% by weight K ₂ O 0.45 wt% Fe ₂ O ₃ 0.08 wt% SO ₃ 0.12% by weight P ₂ O ₅ 0.17 wt% V ₂ O ₅ 0.2 wt%

The vanadium pentoxide and phosphorus oxide come from either one Residue containing substances. That actually for that According to the invention, light-insensitive glass required Vana dium pentoxide is in impure form in the residue namely accompanied by phosphorus oxide. The one for the above Example of a light protection glass used residues for example with the following composition:

V ₂ O ₅ 49.05 wt% P ₂ O ₅ 44.44 wt% ZrO ₂ 1.06 wt% SiO ₂ 0.6 wt% Cr ₂ O ₃ 0.6 wt% Fe ₂ O ₃ 0.27 wt% CaO 0.1 wt%

Furthermore, residues, in particular Element oxides and / or color elements, in an amount that in detail below the practical detection limit should be included.

The light protection glass according to the above example had the following color dimensions:

According to Helmholz:
dom (nm) = 553.97
S = 0.0633

According to Cielab:
L = 89.875
a = -9.581
b = 7.8816

The stated values have been determined after a measurement according to DIN 6174 and DIN 5033 against air on a ground and polished sample at 2% standard valence, standard light C and one Wall thickness of 7.5 mm.

The attached diagram shows a representation of the transmission spectrum of the light protection glass according to the above example (curve B) compared to a conventional white standard glass (curve A) with the following color values:

According to Helmholz:
dom (nm) = 569.93
S = 0.0393
According to Cielab:
L = 91.344
a = -1.921
b = 4.2174

The values mentioned were measured analogously to the color values of the light protection glass according to the example mentioned.

A comparison of the transmission curves of the diagram clarifies light that in the range of ultraviolet light with a Wavelength between 320 and 400 nm (UV-A) the transmission of the Light in the light protection glass according to the example of the invention compared to a white standard glass is significantly lower.

In the production of the glass according to the invention, so is before gone that initially a mixture of raw materials from the ordinary Components of UV light non-absorbing glass without Vana dium pentoxide and phosphorus oxide is formed. This raw material The vanadium-containing aggregate is mixed in. at According to the invention, this aggregate is one Residue from vanadium pentoxide and phosphorus oxide. Possibly the residue may have traces, i.e. small quantities, other stock parts included. The residue can be waste trade material from an industrial process. This residue serves as a vanadium carrier for the ultraviolet according to the invention Glass that absorbs rays or provides light protection. The residue becomes dry in addition to the rest of the raw material mix mixed in. This can be done in such a way that the dry raw material mix with the dry aggregate, namely residual material, is mixed. But it is also conceivable that initially the Raw material mixture is melted and in this way liquefied Raw material mix of the dry residue added and herewith is mixed. The raw material contained in this way for the Glass according to the invention has, among other components, in particular the components mentioned at the beginning, respectively an equal proportion of vanadium pentoxide and phosphorus oxide.

The glass of the composition mentioned above is used for Production of containers with light protection properties, especially bottles or jars for food. Preference wisely, the glass is used to produce transparent ones Beverage bottles.

The glass described at the beginning is particularly suitable Composition for making bottles for beer, wine, Sparkling wine and other light-sensitive drinks.

It has been shown that mainly beer, but also other Beverages, due to the UV-absorbing properties of the glass according to the invention against changes in taste that in bottles of conventional glass through light irradiation, in particular UV rays, are not caused step. This is especially true when colorless glass, so-called white glass, or only slightly colored white glass Is used.

Claims (15)

1. Glass with light protection properties, in particular ultra violet light-absorbing glass, characterized by a vanadium-containing additive. 2. Glass according to claim 1, characterized in that the Aggregate is a residue that contains a vanadium Has proportion. 3. Glass according to claim 1 or 2, characterized in that the aggregate or residue up to 50 wt .-% vanadium Contains pentoxide. 4. Glass according to one of the preceding claims, characterized characterized in that the aggregate or residue essentially union consists of vanadium pentoxide and phosphorus oxide, preferably wise in roughly equal parts. 5. Glass with light protection properties, in particular ultra violet light absorbing properties, with 68.0 to 74.0% by weight SiO ₂ , 0.5 to 3.0% by weight Al ₂ O ₃ , 8.0 to 12, 0% by weight CaO, 1.5 to 5.0% by weight MgO, 10.0 to 14.0% by weight Na ₂ O, 0.0 to 2.0% by weight K ₂ O, 0.0 to 0.2% by weight Fe ₂ O ₃ , 0.01 to 0.3% by weight SO ₃ , 0.03 to 0.3% by weight P ₂ O ₅ and 0.03 to 0.3% by weight V ₂ O ₅ , the sum of the proportions of all components mentioned being 100% by weight. 6. Glass according to one of the preceding claims, characterized in that the proportion of P ₂ O ₅ and V ₂ O _{5 is} approximately the same. 7. Glass according to one of the preceding claims, characterized characterized in that it is colorless (white) or nearly colorless and is preferably transparent. 8. Process for producing a light protection property having, in particular absorbing ultraviolet light Glass, characterized in that a mixture of raw materials vanadium-containing aggregate is added. 9. The method according to claim 8, characterized in that a residue containing vanadium pentoxide as an aggregate is used. 10. The method according to any one of the preceding claims, characterized in that the residue is about 50% vanadium Contains pentoxide. 11. The method according to any one of the preceding claims, characterized in that the residue is in solid form already melted raw material mix with the rest Components of the glass is added. 12. The method according to any one of the preceding claims, characterized in that the solid residue is added to the melted raw material mixture is added. 13. Use of a glass according to one of the preceding Claims for food containers. 14. Use of a glass according to one of the preceding Claims for a transparent or translucent glass or Bottle for food, especially beverages. 15. Use of a glass according to one of the preceding Claims for a transparent or translucent beer bottle, in particular a colorless or essentially colorless, clear or transparent beer bottle.