DE1220566B - Process for processing glass in the heat - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

Number:
File number:
Registration date:
Display day:

C03b

German class: 32 a -39/00

1220566
C32358Vib / 32a
March 9, 1964
July 7, 1966

The invention relates to a method for processing glass in the heat.

It is known that when processing glass in the heat at temperatures at which the Glass is deformable, ζ. B. when rolling, bending and other deformation, the glass has the endeavor to the working tools, such as the rollers, supporting members, molds, etc., to glue and this in the same way to a greater extent, the higher the temperature of the glass.

In principle, it would be advantageous to process the glass at high temperatures because its low Viscosity at such temperatures makes work easier and reduces the amount of energy required and results in products of better quality. About gluing the glass to the mechanical To prevent parts coming into contact with the glass, these must be of the order of magnitude 450 ° C. This makes the systems complicated, and ao there is also the risk of significant errors occurring, especially in the case of rolling, that of planarity errors caused by the glass pane produced in this way.

It is therefore very desirable to be able to prevent very hot glass from sticking to the To prevent tools without intensive cooling of the mechanical parts with which the Glass comes into contact, must take place.

The method according to the invention solves this problem. It consists in the fact that between the hot Glass and the mechanical parts which serve to deform it or which support it are slightly vitreous fusible substance, namely pure boric anhydride or boric anhydride, the other oxides, such as in particular Metal oxides, are added, is switched on.

This glassy substance can be used in its pure state. But it can also be customary powdery substances with a lubricating effect, such as B. graphite can be added.

It has been found that these vitreous substances based on boric anhydride at temperatures of about above 600 ° C has an extremely low viscosity compared with that of the ordinary Glass at the same temperature, so that they are suitable for the task of between the hot glass and the mechanical body switched on, the sticking of the two together preventive lubricating layer to take over.

In order to achieve good results, the viscosity of the intermediate vitreous material should at least be a method for processing glass
in the warmth

Applicant:

Compagnie de Saint-Gobain,

Neuilly-sur-Seine (France)

Representative:

Dipl.-Ing. R. H. Bahr and Dipl.-Phys. E, Betzier, Patent attorneys, Herne, Freiligrathstr. 19th

Named as inventor:

Guy d'Huart, Versailles (France)

Claimed priority:

France of March 18, 1963 (928 261)

100,000 times, preferably 100,000 to 150,000 times lower than that of the treated glass.

In the tables below, the viscosity of a mirror glass is compared to that of pure boric anhydride and that of various mixtures of boric anhydride with other oxides different temperatures from 700 to 1000 ° C.

The tables also give the relationship between the viscosity of the mirror glass and in each case that of the glassy substance interposed between this and the metal according to the invention,

Table I.

Tempe logarithm logarithm relationship
the viscosity rature UCl V loJxUollctL the viscosity of the mirror glass ⁰ C QcS
Mirror glass from B ₂ Os to the viscosity
from B ₂ Oj 700 8.3 2.9 250,000 800 6.3 2.5 6400 900 5.0 2.1 800 1000 4.1 1.8 200 609 588/95

Table II

Tempe
rature
° C logarithm
the viscosity
of
Mirror glass logarithm
the viscosity
the cooling
B ₂ O ₃ (90 moles)
NaCO (10 moles) relationship
the viscosity
of the mirror glass
to the viscosity
VOIiB ₂ OaNa ₂ D 700
800
900
1000 . 8.3:
6.3
5.0
4.1 , V 2.3
1.6
> ■ ■■ '1.1
0.7 1 000 OÖO '
50,000
8,000
2500

Table III

Tempe
rature
⁰ C logarithm
the viscosity
of, ..;_
Mirror glasses' logarithm
the viscosity
the cooling
B ₂ O ₃ (90 moles)
K ₂ O (10 moles) relationship
the viscosity
of the mirror glass
to the viscosity
of B ₂ O ₃ K ₂ O 700
800
900
1000 8.3
6.3
5.0
4.1 2.2
.1.5
1.1
0.6 1,250,000
63,000
8,000
3,200.

In the case of the following Table IV, it is considered lubricating active substance according to the invention uses a mixture of several oxides. the represents nothing other than the starting mixture of a boric acid glass containing lead oxide.

The composition of this glass in percent by weight is as follows:

SiO ₈ 16.80%

B ₂ O ₃ 9.45%

PbO '.'. '.. 72.2O «/ o

Al ₂ O ₃ l, 15 ^fl / o

. · Table IV

Tempe
rature
⁰ C logarithm
the viscosity
of
Mirror glass logarithm
the viscosity
of
Lubricant relationship
the viscosity
of the glass to the
of
Lubricant. 700
800
900 8.3;
6.3
5.0 · 2.1
1.2
0.8 1,600,000
130,000
16,000

From Table I it can be seen that the boric anhydride particularly suitable for use in the temperature range from about 700 to 800 ° C, because the ratio of the viscosities of the glass and the boric anhydride to each other is in this range has a very high value. Above 900 ° C this ratio drops below 1000. In these areas it is then more advantageous to use the Mixtures of boric anhydride and alkali oxides from Tables Π and ΓΠ or the lead-boric acid glass, to which Table IV relates.

The glassy substance used according to the invention to prevent the glass from sticking has very little or no chemical action at all on the mechanical parts, such as z. B. the rollers, regardless of whether they are made of stainless steel, graphite or a refractory material. Compared to the processed glass there is a slight one Determine diffusion of the lubricating substance in the surface zone of the glass, whose Degree increases with temperature. However, this diffusion does not give rise to any difficulties, but rather works, rather in the sense of .an improvement. of durability of the glass against water. In the case of mirror glass, which has to be ground and polished should, this superficial diffusion is completely without

ίο effect because when grinding and polishing the surface layer of the glass, on which the diffusion process has affected, is completely removed will.

As experience has also shown, the boric anhydride and the various mixtures of boric anhydride with other oxides which are used according to the invention, substances such as steel, graphite and refractories, wet very easily, so that the lubricating substance easily self-absorbs this spreads out in the form of a very thin film. The application of the lubricating substance is therefore not a particular problem. ■ ■ " The application can be made using any of the

usual means, especially by immersing the body in a molten bath of the glassy Substance. In this way, a roller with the lubricating substance can be particularly simple overcoat because it suffices to circulate it in a state partially immersed in such a bath permit.

According to another possibility, the lubricating substance also in the form of a film on a moving body, such as a Roller, are poured, in which case the molten substance is contained in a container and, flowing out of an opening or a slot thereof, in contact with the body to be coated got.

The spreading of the lubricating substance can be caused by the rubbing effect of a shoe body on the component to be provided with the lubricating substance.

Finally, it is also possible to apply the lubricating substance by atomization.

A special way of carrying out the process according to the invention is that boric anhydride is used as a binder to apply graphite powder to the surface to be lubricated

To get attached. This embodiment is particularly suitable for the application of the method according to the invention for coating the metallic walls of glass molds.
In this case you can work as follows:

A frit is made from boric anhydride and graphite, for example of the order of magnitude Contains 5 to 15 percent by weight graphite. This, mixture is finely ground and then on a Heated temperature of about 700 ° C. The mixture is then carefully homogenized by stirring, whereupon they are allowed to cool. The cooled mass is ground very finely again. That way The powder obtained can be put into a powder atomizer of conventional design and through this on surfaces, especially metal surfaces, to which it adheres, if the temperature of these areas is sufficiently high. As experience has shown, such an approach arises

adhere if the temperature of the surface is higher than 400 ° C.

The surfaces coated in this way are effective against sticking of hot glass their later contact with this protected

In general, in order to prevent the glass from sticking, it is sufficient if the thickness of the between the processed glass and the mechanical body such as rollers, mold surfaces, etc., turned on Layer is a few microns. The consumption of lubricating glassy substance is therefore very low.

Finally, it should be noted that by including the very easily meltable intermediate layer according to the invention also the frictional forces between the mechanical bodies and the Glass can be reduced. The presence of these frictional forces is, on the other hand, many, e.g. B. at Rollers, convenient to take the glass with you. In this case it is recommended to use rollers, the z. B. roughened or slightly grooved by a sandblasting fan, so that surface roughness remain whose radial dimensions are greater than the average thickness of the intermediate Films from the glassy fabric.

Claims (11)

Patent claims: 1. A method for processing glass in the heat, characterized in that between the hot glass and the mechanical body with which the glass in the course of its Processing comes into contact, an easily meltable glassy substance made of pure boric anhydride or a combination of boric anhydride with other oxides, in particular Metal oxides, is introduced. 2. The method according to claim 1, characterized in that the vitreous substance as such known lubricating substance, such as graphite, is added. 3. The method according to claim 1 and 2, characterized in that the glassy substance is based composed of boric anhydride, optionally with the addition of other oxides is that its viscosity is at least 1000 times, preferably 100,000 to 150,000 times, lower than that of the processed glass at the processing temperature in question. 4. The method according to claim 1 to 3, characterized in that the glassy substance consists of a Mixture of boric anhydride with alkali oxides is formed. 5. The method according to claim 4, characterized in that the proportionate amount of alkali metal oxides in the vitreous substance is measured _{at about 10 moles per 90 moles of B 2} O _3. 6. The method according to claim 1 to 5, characterized in that a glass based on borosilicate and lead oxide is used for the vitreous substance, which contains about 17 percent by weight SiO ₂ , 10 percent by weight B ₂ O ₃ and 72% BbO. 7. The method according to one or more of claims 1 to 6, characterized in that the lubricating glassy substance in the form of a powder made from a mixture of boric anhydride with 5 to 15 weight percent graphite is used. 8. Application of the method according to claim 1 to 7 on the rolling of glass sheets or -belts between rollers made of metal, graphite or refractory materials. 9. The method according to claims, characterized in, that corrugated or in any way roughened rollers are used and such a reduction in the coefficient of friction balanced between the glass and the rollers by the intermediate layer applied to them will. 10. Application of the method according to claim 1 to 7 on molds for the production of Glass products, characterized in that at a temperature of over 400 ° C heated walls of the molds made of a mixture of boric anhydride and graphite, which in the order of magnitude of 5 to 15 percent by weight of graphite contains existing powder will. 11. Process for the production of a lubricating powder based on boric anhydride and graphite for carrying out the method according to claims 1 to 10, characterized in that at a temperature in the An intimate mixture of boric anhydride and graphite produced on the order of 700 ° C, this mixture is cooled and, after cooling, finely ground. 609 588/95 6.66 ® Bundesdruckerei Berlin