DE2345648A1 - PROCEDURE FOR ASSEMBLING A GLASS BREAK - Google Patents

Description

PHN. 6527. Jelm / Va / RV. ·

GÜNTHER M. DAVID

Pcientasssssor Applicant: NV PHiLiPS ¹ GLOEILAWPENFABRIEKEN

File, PHIT-6527 from "Sept. 10, 1973

Method for assembling a batch of glass.

The invention relates to a method of assembly a batch of glass for use in the manufacture of glasses for television use.

under gliders for television purposes are those

Glasses for the screen or the cone of a television picture display cathode ray tube to understand their composition in weight? £ is within the following limits:

SiO ₂ 50-75 • 0-6 all in all ZrO ₂ (Li ₂ O + Na ₂ O ₊ K ₂ O) 0-8 Al ₂ O ₅ 0-15 > -8 H ₂ O < ^Pb ö 0-15 ^B 2 ° 3 1 BaO, .0 - 12 SrO <5. CaO + MgO

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The mixture that was previously used for the production of glasses of this type contains quartz sand, feldspar (KAlSi ₅ O ₈ and / or NaAlSi, 0 _Q ) as a source for the Al 0 ,, alkali carbonates to supplement the alkali oxide, alkaline earth carbonates and the rest Part red lead or lead silicate, zirconium oxide and / or zircon sand, in the latter case, the same as when using lead silicate and feldspar, correcting the amount of quartz sand to be added »

It has already been proposed (e.g. in British Patents 1,192,237 and 1,129,837) for glasses of various types It has been proposed to introduce the alkali oxide into a mixture in the form of a solution of the alkali hydroxide in question, with that of the rest Part of the mixture is wetted and made to react. As a result, an agglomerated mixture is obtained that is less dusty and dea was found to melt down faster.

For the composition of a batch for use in the manufacture of glasses for television purposes, it is stated that the introduction of Ha ₂ O into Fora of SaOH has a beneficial effect on the melting of this batch. If, in addition, K ₃ O is introduced in the form of KOH, it turns out that this beneficial effect has decreased considerably.

If, however, all alkali and alkaline earth oxides are added in the form of their hydroxides, it surprisingly emerges that, with simultaneous granulation, a mixture is formed that refines considerably better than the mixture into which the above-mentioned oxides are introduced in the form of carbonates or into which only Ha ₉ O is added as KaOH.

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-3- PHN. 6527.

The assembly method of the invention one, mixture for use in the production of a glass for television purposes, the mixture being sand, feldspars, raw materials for alkali and alkaline earth oxides and, if desired, red lead or lead silicate and zirconium oxide or zirconium silicate contains, is characterized in that alkali oxides and alkaline earth oxides at least $ 90 with stirring in the form of an aqueous solution their hydroxides are introduced, the solution is heated to boiling temperature (about 120 ° C), while the remaining mixture in this solution is dispersed, after which the suspension is evaporated with constant stirring until a dry granulated mass is obtained will.

The granules obtained in this way can be placed in the oven without further treatment. It refines considerably better (ie that it is "free of bubbles much faster) than a mixture made up in the usual way. The shortening of the melting time achieved thereby varies from 30 to 80 fo.

The amount of water used must be at least large enough that all hydroxides dissolve in it and that after introduction of the best mixture a stirrable mass is obtained. It is preferable not to use too large an amount of water, because the excess water will then be used must be removed by evaporation.

The invention is explained in more detail below using a few examples of mixtures.
1) To be in 320 ml of water

102 g NaOH

64 g 90 $> KOH and
281.6 g of Ba (OH) ₂ .10H ₂ O

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and heated to 120 ⁰ C.

To this solution are added:

26.6 g of potassium feldspar with a particle size between 100 and 400 / ma, g of quartz sand with a particle size between

100 and 3OO / Vtm _t 12 g lithium carbonate with a particle size

between 3 and 5 / um » 6.8 g of antimony trioxide with a particle size

between 0.5 and 10 / µm and 6.9 S sodium nitrate with a particle size between

100 and 600> ura.

The suspension is heated further, with stirring, until dry granules are obtained. With a mixture after this Offset results in a shortening of the melting time compared to batches in which the alkali and alkaline earth oxides in the form of their Carbonates are added to 40? &.

2) In 3OO ml of water and heated to 120 ⁰ C:

90.1 g NaOH,
63.0 g 90 i »g KOH and Ba (OH) ₂ .10H ₂ O

To this solution are added with stirring: 171.4 g of potassium feldspar with a particle size between

100 and 400yum, 56.6 g dolomite with a particle size between

10 and 150 / um,

530 g quartz sand with a particle size between 100 and 300 / um,

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j

2.2 g cerium oxide with a particle size between

1 and .20 / do,
6.0 g of antimony trioxide with a particle size between

0.5 and 5yum and
15.0 g of sodium nitrate with a particle size between

100 and 600 / µm.

The suspension is heated with stirring until granules are obtained. With a mixture after this offset results a shortening of the melting time compared to batches which the alkali and alkaline earth oxides pull in the form of their carbonates. sets to be around £ 80.

3) Dissolve in 300 ml water and heat to 120 ° 0:

98.9 g NaOH
97, Og KOH and
23.3 g of Ba (OH) ₂ .10H ₂ O

The solution is added with stirring: 521 g of quartz sand with a particle size between

100 and 300 / µm,.
123 g red lead with a particle size between

1 and 5 / um,
52.6 g dolomite with a particle size between 10

and 150 / um,
164 g of potassium feldspar with a particle size between

100 and 400 / um,
5.0 g of antimony trioxide with a particle size between

0.5 and 5 / µm and

10i2 S sodium nitrate with a particle size between 100 and 600 μm.

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The suspension is heated with stirring until dry granules are obtained. With a mixture after this Offset results in a shortening of the melting time compared to batches in which the alkali and alkaline earth oxides in the form of their Carbonates added to $ 60.

4) In 3OO ml v / ater and heated to 120 ^e C: 93.6 g NaOH,

72.1 g of KOH and
279.6 g of Ba (OH) ₂ .10. H ₃ O

The solution is added with stirring: 591 g of quartz sand,
102 g potassium feldspar,
34 S red lead,
7 g antimony trioxide and
5 g sodium nitrate.

The TeücbengrSße corresponds to the values given in table 3). A batch after this offset results in a shortening of the melting time compared to batches in which the alkali and alkaline earth oxides are used in the form of their carbonates are added to 30 ^.

5) To be in 300 ml of water
107 g NaOH

104 g of KOH and
175 g Ba (OH) ₂ . 10 H ₂ O
and heated at 120 ⁰ C.

The following are added to the solution while stirring:

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7345648

. 6527.

634 S quartz sand '(particle size 100 - 300 / um)

19 g dolomite (". 10-150 / um)

6 g antimony trioxide (. '0.5-5 / um)

15 g sodium nitrate ("100 - 600 / um)

2 g cerium oxide ("1 - 20 / um)

The suspension is heated with stirring, Ms a

Granulate is obtained. A batch after this offset results in a shortening of the melting time compared to batches where
the alkali and alkaline earth oxides are added in the form of their carbonates
become, over 50 ^.

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Claims (2)

? 3Λ5648 -8- PHN. 6527. PATENT CLAIMS » Process for assembling a batch for use in the manufacture of a glass, the composition of which in weight fo lies within the following limits: 50-75 CaO + MgO < 0-6 ZrO ₂ 0-8 PbO 0-15Ί R ₂ O (Li ₂ O ₊ Na ₂ O ₊ K ₂ O) ~? 13th ₂ O (Li ₂ O ₊ Na ₂ O ₊ K ₂ total ^Β 9 ° λ < ¹ . BaO 0-15 SrO 0-12 the mixture being sand, feldspars, raw materials for alkali and. Alkaline earth oxides and, if desired, red lead or lead silicate and zirconium oxide or zirconium silicate, characterized in that alkali oxides and alkaline earth oxides are introduced to at least 90 ° / ° with stirring in the form of an aqueous solution of their hydroxides, the solution being ^{heated to boiling temperature (about 120 0} C) , while the residual mixture is dispersed in this solution, after which the suspension is evaporated with constant stirring until a dry granulated mass is obtained. 2. Glass obtained by melting the granules produced according to claim 1. 409813/1080