CS202547B2 - Material for producing protective spectacle glass with ultra violet and infra red light absorption - Google Patents

Abstract

In addn. to the normal constituents in a soda-lime-silica glass, the compsn. contains (by wt.) 0.2-4.0% Fe3O2, 0-0.9 % Na2SeO3, 0-0.05% Co2O3, 0-0.5% Ni2O3, NaCl and 0.2-5.0 % KNO3. The use of a higher amt. of NaCl produces a colour stabilising effect. Both blooming and changes in transparency due to solarisation are reduced, and glass of the same colour can be consistently reproduced.

Description

(54) Material for the manufacture of protective spectacle glass with absorption of ultraviolet and infrared light

FIELD OF THE INVENTION The present invention relates to an alkali-calcium silicate protective goggle material which is colored with iron and selenium, as well as a color neutralizing additive of cobalt, nickel, rare earth, and the like. pressing and cooling. Further, the invention enhances the color stability of the glass under radiation (solarization). The invention is also intended to improve the absorption of infrared light and color in the visible region of the spectrum and to increase their reproducibility.

The known silica-based safety glasses stained with iron and selenium, to which cobalt, nickel or rare earths are added to neutralize the orange tone and melted and clarified oxidatively, have a number of disadvantages. In the first place, it is necessary to mention the start-up, which is particularly disadvantageous where the molten and cooled glass is reheated, pressed and cooled. Even temperature fluctuations in the cooling furnace of 20 ° C cause a visible change in the color of the glass. Furthermore, the glass shows a solarization effect and poor reproducibility of the paint during production in the melting furnace by fluctuations in the oxidation or resp. reducing character of the furnace. The absorption of infrared light of glass of this kind is low because the proportion of iron (II) is reduced by the addition of selenite and the oxidizing gases of the furnace. With this low absorption of infrared light there is associated with these glasses an unfavorable transmission pattern in the visible region of the spectrum, which rises strongly from the blue to the red end, thereby greatly disrupting the desired natural, i.e., neutral, color reproduction in the sun glasses. Finally, a poor quality for a large number of bubbles is found in pans of this kind in pans.

The present invention overcomes these disadvantages or at least greatly reduces them. Sodium chloride added to the batch for the sole purpose of clarification has been found to have additional effects at elevated conventional concentration to help eliminate or reduce these disadvantages,

202547 2

Thus, substantial technical progress can be made in the manufacture of the described spectacle glass.

The above disadvantages are eliminated matteiál for producing a protective eyeglass lens ultrfTillového absorption and IR · shone consisting of a charge containing · 68 · to 72% by weight of silica SiO _2, 0.5 to 2% UmoOnoltní alumina.

AlgO 6 6 to 15 mol% of sodium oxide · Na ₂ 0, 3 to 10 mol% of potassium K ₂ O, 8 to 14 mol% of calcium CaO with the additions of 0 to 4 to 4 moles% of ferric oxide and 0.1-0.9 mol% of sodium selenite NagSeOy as well as 0.01-0.05% by weight of carbon monoxide and / or 0.2-0.5 moles% of Ni-N-oxide according to the invention. characterized in that it contains 2 to 6 mol% of NaCl and 0.2 to 5 µM of potassium nitrate KNO 2.

By increasing the sodium chloride content of the batch and by the appropriate addition of potassium nitrate, the known good clarifying effect of sodium chloride is increased. The result glass is practical without bubbles.

Furthermore, it is found that Re-Co-Se-spectacle glass melted with increased sodium chloride additive changes its color tone from yellow-brown to pink. The glass spectrum shows a desirable higher absorption of infrared light and, consequently, a fairly flat transmission pattern in the visible Hasti spectrum, which contributes to improving color reproduction.

It is known that halides, for example in thermal protective glasses, increase the absorption of infrared light, in the case of borosilicate iron-containing glasses, improve the steepness of the edges of the irafrafal light.

However, the combined improvement of infrared light absorption and transmission in the silica in the above-mentioned salt did not achieve the previously known alkali-calcium silicate glasses stained for eye protection with iron, selenium or cobalt or other additives.

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In addition to this effect, the color enhancement has an increased sodium chloride addition in a protective glass containing Fe-Se-Co stabilizing effect of the color. ·. induced by the action of selenium and iron during cooling of the cast iron thus reduces the temperature variation in the cooling furnace causing no color changes.

2. The change of glass stretching by solarization is substantially changed.

3. The reproducibility of the color of the glass is increased, i.e., the color variation caused by different conditions.

grain melts during melting. ^; ,

This effect of the increased color-stabilizing additive of sodium chloride on the strain, as well as the customary effect in clarification, is the most important benefit of the invention.

The invention is illustrated by the following examples and the accompanying drawing, in which: FIG. wherein, for example 1, the corresponding waveforms (1 D-wavelength dependence) of 2 mm thick glass samples are shown which illustrate the color enhancing and stabilizing effect of increased sodium chloride. .

Examples of the composition of the material for the manufacture of the safety goggles according to the invention are given in the following table. .

. '. -3 - 10 202547 • 1 2 3 4 -. 5 6 . 7 Z. 8: 9 ' SiO ₂ 70.2 68.5 69.0 69.0 68.0. 69.2 68.0 69.5 68.5 69.8 A-2 ° 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 At ₂ 0 10.0 7.0 9.0 ' 8.0 9.46 7.9 7.8. 7.8 7.0 7.8 K ₂ 0 ' 6.3 5.0 5,5 -. 5.0 6.09 4.9. 3.8 5.0 3.8 5.0 CaO ' 11.4 1 1, 0 11.0 1 1, 0 1 1, 01 '10, 0 9.0 10.0 9.0. 10.0 ý - NaCl 3.0 3.0 3.0 3.0 2.9 4.0 4.0 2,0 6.0 4.0 KNO ^ 0.65 ', 5 1.5 1.0 0.63 2.6 2.2 2.5 2.5 0.2 Fe ₃ ° ₄ 1,2 2.56 0.39 2,0 1.16 0.2 4.0. 2,0 2,0 2.0. C ° ₂ 0.02 0.04 0.01 0.02 0.02 0.03 0.03 0.03 0,03 ' 0.03 Na ^ eO ^ 0.24 0,90- 0.10 0.48 0.23 0.37 0.37 ’ 0.37 0.37 0.37 M ₂ ° ₃  - - - ' - - 0.3 ⁰ -, 3 0.3 0.3 0.3 Giant. 1 him. While in the attached drawing of the curve propuutnooti document how glass is always cooled removes at 490 changes - colors caused by ° C, 510 ° C, - 530 ° C - and 560 ° C,

which was melted with only 1.5 wt. % of each other, the curves of the glass melted with 3 wt. % sodium chloride practically with each other.

FIG. 2 shows a higher color fastness of the protective glass melted with a higher sodium chloride content against. ultra-radiation 200 watt mercury lamp. While the b trenismise curve of 48 h at 300 nm of the irradiated sample distance in the red portion of the spectrum strongly deviates from the curve of an unirradiated glass sample melted with 1.5 wt. % of sodium chloride, this is almost non-optical in the glass of Example 1.

Giant. 3 illustrates improved color reproducibility, on the left for a 1.5 wt. % sodium chloride, right for the same sample with 3.0 hmmtn. % sodium chloride. The lower curves belong to the heavily reduced-melted glasses, the upper curves to the strongly oxidatively melted glass, it is apparent that the curves of the trislseisn glasses melted with 3 µm. % at the wavelengths is much closer to that of glass melted with only 1.5 hmmtn. % sodium chloride. All of the figures also show better absorption of infrared light with a more favorable propuutnooti in the visible region for glass melted at 3 hmmtn. % sodium chloride.

Thus, the requirements for good spectacle glass in terms of protective effect and color reproducibility are better fulfilled in the glass according to the invention than in the prior art glasses of this kind. '. . . .

Claims (2)

SUBJECT OF THE INVENTION Ultraviolet and infrared light-absorbing spectacle material consisting of a feedstock containing 68 to 72% by weight of SiO2, 0.5 to 2% by weight of AlgOp 6 to 15% by weight of sodium oxide Nag0, 3. up to 10% by weight of K2O, 8 to 14% by weight of CaO and 0.2 to 4.0% by weight. of ferrous iron oxide and 0.1 to 0.9 mol% of sodium selenite NagSeO 4, as well as 0.01 to 0.5% by weight of cobalt and / or 0.2 to 0.5 % Ni nickel oxide characterized by:. contains% 2 to 6 mol% of sodium chloride-Nad and 0.2 to 5 mol% of potassium nitrate KNC. . .