SU874686A1 - Ruby glass - Google Patents

Description

(54) RUBY GLASS

one

The invention relates to colored glass, in particular ruby glass, and can be used in many areas of industry, namely, in light engineering, optics, art glassmaking, construction, etc.

Known compositions of copper ruby glasses include, weight,% 1

Sn02 0.1-0.6

Si 0.01-0 / 07 However, a significant drawback of known ruby glasses, which significantly limits their use, is the difficulty of obtaining glasses of a given optical density, generally the difficulty of obtaining a weak color, i.e. the inability to adjust the process of interference. A sharp transition from complete absence of pickup is obtained (in this case, color pickup requires special heat treatment to a dark non-translucent pickup with a liver tinge. Due to the great colloidal power of copper and the inability to control the pickup process, ruby glass has not been used until now for the manufacture of products with a solid (in mass) color and served mainly for the manufacture of colored layer on the products with a thickness of no more than 0.1-0.2 mm.

A particular difficulty is the production of lead-based copper ruby glasses, so k-ak any known composition contains a reducing agent, which not only performs the direct function of copper reduction and the formation of dye colloidal particles, but at the same time can partially recover lead. unfortunately. . . Using the known glass composition it is impossible to obtain a color of a predetermined intensity. As a rule, an intensely red color is obtained with a thickness of more than 0.3 mm, which turns into black with the appearance of the liver, a glass that is transparent in reflected light. The purpose of the invention is to provide in the ability to control the intensity of the coloration. This goal is achieved by the fact that ruby glass including 510 PbO, N82.0, 2.0, ZnO, CugO, Sn additionally contains S10 with the following ratio of components, wt.%: 53-68 14-28 9-15 1- 7 0.5-3 0.5-3 0.2-2.0 SnOa. 0.1-0.6 SIC 0.1-0.6 In this case, in order to obtain a weak coloration, the ratio of Cu O to S i O is 1-2. In addition, in order to obtain intense coloration, the ratio of Cu.O. to SiO is 2.5-3.5. The introduction of silicon monoxide into the composition of ruby steels, which is formed as waste in quartile electric furnaces and has never been used before, makes it possible to control the pickup process. By varying the concentration of silicon dioxide, it is possible to obtain ruby glasses with a predetermined intensity of color, and the ease with which silicon monoxide is crushed to a thin coat of weak coating — 1 58 24 12 4,0 0.5 1 neck 1 2 660 16 12 3 1 1 360 22 10 3 1 1.5 Intensively painted466 14 10 3.8 1 2 full glasses

Claims (2)

Claim 1. Ruby glass including SiOi, PHO, KjO,, 67.03, ZnO, , SnOi, characterized by TeM, which, in order to enable the control of the intensity, contributes to its uniform distribution in the glass mass and, in the subsequent, to obtaining uniformly colored glass. By adjusting the ratio of the amounts of CoiO injected to SiO, ruby glasses can be obtained from lightly colored to intensely colored, characterized by different values of the ratio of optical densities at wavelengths. 500 them and 700 them. With a ratio of 1-2, slightly colored glasses are obtained, glasses with a d value of 4–7, and at a ratio of Co2 0 51O 2.5–3.3, intensely colored glasses with a value of 1 9–13 are obtained, where is the optical density. The table shows examples of the proposed glass. Glasses are cooked in hot-melt regenerative glass melting furnaces with a lower flame supply at a temperature of 1450 s for 8 h. Glasses are used to produce various products (vases for flowers, glasses, ashtrays, salad bowls), with ruby glass being used both for the manufacture of thin external overlays, and in the mass of example 1 and 2). Thus, the proposed ruby glass composition makes it possible to expand the assortment of ruby glass products, due to the possibility of controlling the color intensity to obtain glass with a different, predetermined color intensity, determined by the ratio of optical density values at 560 nm and L-7O. also obtain glasses that have the ability to be induced without the formation of defects, for example, the liver in the process of production. The economic effect at one enterprise is about 15,000 rubles per year. 0,25 0,1 0,15 0,15 1,6 0,5 5 5 0,3 025 0,25 0,25 1,2 0,8 55 1,5 0,5 0,5 0,5 3, 0 1.9 12 2 о, 6 0,6 0,6 3,3 2,0 10 5 87468 nosti staining, it additionally contains S10 with the following ratio of components, wt.%: 53-68 PHO 14-28 Coo 9- 15e N320 1-7e, 0.5-3 - Q 5-3 0.2-2.0 SnQy, 0.1-0.6) Q 5 (0 0.1-0.6 2. Glass according to claim. 1, distinguished by the fact that, in order to obtain a weak color, the ratio 2. SO is 1-2. 3. Popl glass, characterized by the fact that, in order to obtain an intense color, the ratio C – O K SiO is 2.5-3.5 Sources of information taken into account in the examination j Handbook of glass production. M., Gosstroyizdat, tL, 1963, d 1005. 2. USSR author's certificate 662514, cl. From 03 to 3/20, 1975.