DE1090398B - Optical crown glasses - Google Patents

Description

GERMAN

The present invention relates to optical glasses with small and relatively high dispersion Refractive index.

Such glasses have hitherto been known as boric acid-rare earth oxide glasses with a more or less high silica content or melted as barium silicate glasses or barium borate or strontium borate glasses. While the first. Group known as the lanthanum crown, relatively stable, but because of the necessity high Lanthari content is also relatively expensive, glasses with a high barium oxide content are chemically low resistant and cause considerable difficulties in production. In addition, there are systems made from alkaline earth oxides and boric acid have become known, with the aim of achieving the required high refractive indices Again a relatively high content of barium oxide was necessary.

The present invention relates to glasses with approximately the same optical layers as the aforementioned, which, however, are at least almost free of lanthanum oxide or barium oxide. By avoiding of these two substances, the glasses are chemically stable and cheaper and do not produce any significant difficulties in manufacturing optical systems.

• The glasses according to the invention anyway; besiehen-im'w ^: esent- ·: borrowed from at least one oxide of calcium or magnesium, at least one oxide of zinc or cadmium and boric acid, the proportion of the components mentioned being between the following limits: ■ - ■ - ""

CaO and / or MgO 12.5 to 38 percent by weight ZnO and / or CdO 10 to 46 percent by weight B ₂ O ₃ 19 to 55 percent by weight

It has also been found that borates of magnesium and / or calcium in the presence of oxides and / or borates of zinc or cadmium; a good starting point for batches for melting the invention Glasses surrender. Up to 30 percent by weight of silica can be added to these mixtures be, with the silica in addition to the oxides of. Magnesium and / or calcium and zinc and / or Cadmium or else in the form of the silicates of the aforementioned elements is introduced into the mixture. It has proven particularly expedient to add up to 7.5 percent by weight to the mixtures of zirconium oxide to be added, whereby the chemical stability of the * glasses is significantly increased. For brightening and easier fusibility, a small proportion of alkali oxides is recommended, in the form of the Carbonates or nitrates are added to the mixture, for example up to 3 percent by weight AlkaliOptische Crown glasses

Applicant:

Ernst Leitz G. m. B, H.,
Wetzlar / Lahn, Laufdorfer Weg

Dipl.-Chem. Heinz Bröiner, Hermannstein,

and Norbert Meinert, Wetzlar / Lahn,

have been named as inventors

oxyde, the ratio of sodium to potassium being 3: 1 can be chosen. A small amount of arsenic acid for further decolorization it is advisable.

For adjusting a very specific .optical Up to 12 percent by weight of the total batch rate of strontium oxide and / or barium oxide can be used and / or lanthanum oxide can be used. Such a low content of these two raw materials is chemically no longer effective and also does not make the batch recipe significantly more expensive. For further stabilization has an alumina content up to

35. 10 percent by weight in the mixture has proven its worth.

Table 1 lists melt batches in which the base glass is composed of calcium metaborate and zinc metahorate consists. It has been shown that a further addition of zinc oxide reduces the refractive index relative strongly influenced, so that one is able to achieve the desired optical values with zinc oxide alone reach. In the batches from No. 66 to 69 there is zirconium oxide instead of zinc oxide up to 17.5 percent by weight added to the mixture. A comparison with the corresponding glasses, with an additional one The proportion of zinc oxide shows that "with the same refractive index, the dispersion is reduced, the proportion of zirconium oxide in percent by weight is much lower than that of zinc oxide. The calcium metaborate content of these melts is between 35 and 63 percent by weight, the zinc borate content between 32 and 55 percent by weight. The proportion of zinc oxide can be up to 25 percent by weight, the proportion of zirconium oxide up to to be 17.5 percent by weight.

009 610/202

Ca (BO ₂ ) ₂ Table 1 Zn (BO ₂ ) ₂ ZnO ZrO ₂ 1.641
1.648
1.657
1.661
1.662
1.671
1.643
1,650
1.660
1.666
1.644
1.651
1.665
1.671
1.670
1,685 ^v e Enamel no. 62.5
59.5
54.3
52.0
58.0
55.7
55.5
52.4
47.1
44.9
45.4
42.4
37.2
35.2
40.8
38.6 37.5 ■ ■
35.7
32.6
31.2
34.9
33.4
44.5
42.0
37.7
35.9
54.6
50.8
44.8
42.2
49.1
46.3 4.8
13.1
16.8
5.6
15.2
19.2
6.8
18.0
22.6 7.1
10.9
10.1
15.1 57.4
56.4
54.5
53.8
54.7
53.2
56.7
55.9
53.8
52.6
56.2
55.0
52.3
51.1
52.5
50.8 Br / IV / 56
Br / IV / 63
Br / IV / 64 ............
Br / IV / 65
Br / IV / 68 ............
Br / IV / 69
Br / IV / 55
Br / IV / 60
Br / IV / 61
Br / IV / 62
Br / IV / 54
Br / IV / 57
Br / IV / 58
Br / IV / 59
Br / IV / 66
Br / IV / 67

In Table 2 a, silicic acid is 80 percent by weight in the batches, while the zinc oxide content

added. The refractive index of the resulting 25 in these glasses is up to 25 percent by weight

nen glasses decrease in favor of the dispersion. The CaI - a silica content up to 20 percent by weight

The proportion of ciummetaborate in these melts increases up to.

Table 2 a

Enamel no. Ca (BO ₂ ) ₂ ZaO SiO ₂ ⁿ e ^v e Br / IV / 85 78.2
70.5
64.1
71.5 12.5
16.9
20.6
11.5 9.3
12.6
15.3
17.0 1.643
1.644
1.644
1.628 58.0
56.5
56.2
57.2 Br / IV / 84 Br / IV / 83 Br / IV / 100

Table 2b shows glasses with up to 10.5 percent by weight of zirconium oxide for further stabilization is added.

Table 2 b

Enamel no. Ca (BO ₂ ) ₂ ZnO SiO ₂ ZrO ₂ Na ₂ O 1.646
1.652
1.660
1.670
1.634
1.661
1.666
1.669 ^v e Br / IV / 89
Br / IV / 90
Br / IV / 92
Br / IV / 91
Br / IV / 102
Br / IV / 101
Br / IV / 93
Br / IV / 96 76.7
75.3
72.5
70.0
70.2
64.5
69.0
69.4 12.3
12.0
11.7
11.3
11.4
10.5
11.1
11.2 9.1
9.0
8.6
8.3
16.7
15.4
8.2
8.2 1.9
3.7
7.2
10.4
1.7
9.6
10.0
10.3 1.7
0.9 57.1
56.2
54.6
53.4
56.1
52.2
53.0
53.2

In the case of the glasses in Table 2 c, a particularly small dispersion was used when increasing of the refractive index up to 12 percent by weight of lanthanum oxide is added to the mixture.

Table 2 c

Enamel no. Ca (BO ₂ J ₂ ZnO SIO ₂ La ₂ O ₃ 1.652
1.667 ^v e Br / IV / 86 66.3
62.6 16.0
15.1 11.8
11.2 5.9
11.1 56.1
. 55.2 " Br / IV / 87 ■ "..

Finally, Table 2d shows glasses for which Calcium oxide was added to the mixture.

The zinc and calcium can also be used as the corresponding silicate.

Table 2d

Enamel no. Ca (BOa) ₂ CaO ZnO SiO ₂ 1.644
1.641 56.8
56.1 Br / IV / 98
Br / IV / 99 59.5
42.2 8.8
18.8 12.8
10.9 18.9
28.1

Calcium oxide or the corresponding borate and / or silicate can be replaced by magnesium oxide in the mixtures be replaced in whole or in part. Of the oxides of strontium and / or barium and / or Lanthanum should only be used up to 12 percent by weight in order to reduce the chemical resistance of the melted Do not influence glasses unfavorably.

The mixtures can do what is within the scope of the invention is, smaller amounts of stabilizing substances, such as aluminum oxide. Ä., or Substances promoting the melt flow, such as alkali oxide, cryolite and the like, or decolorizing substances, such as Arsenic or nitrates.

Claims (6)

PATENT REQUIREMENTS: 1. Optical crown glasses, melted from a mixture that consists essentially of at least an oxide of calcium or magnesium, at least one oxide of zinc or cadmium and Boric acid, the proportion of the components mentioned being between the following limits: CaO and / or MgO 12.5 to 38 percent by weight ZnO and / or CdO 10 to 46 percent by weight B ₂ O ₃ 19 to 55 percent by weight 2. Optical glass according to claim 1, characterized in that the divalent oxides at least are partly added to the mixture as metaborates. 3. Optical glass according to claim 1 or 2, characterized in that the mixture is up to 30 percent by weight of silica is added. 4. Optical glass according to claim 1 to 3, characterized in that the divalent oxides are partly used as silicates, the content of silica in the mixture being 30 percent by weight does not exceed. 5. Optical glass according to at least one of the preceding claims, characterized in that that up to 17.5 percent by weight of zirconium oxide is added to the mixture. 6. Optical glass according to at least one of the preceding claims, characterized in that that up to 12 percent by weight of strontium oxide and / or barium oxide and / or lanthanum oxide in the Mixtures are included. © 009 610/202 9.60