SU952788A1 - Glass for optical filters - Google Patents

Description

The invention relates to glass compositions that can be used as protective light filters for steelmakers.

Known glass sledski tse composition, wt.%: SiOg 60-75; Al.O 0.15, 0; CaO 6-16; MgO 0.5-9.0; 10-20; KjG 0-12; , 0.2-1.0; CoO 0.003-0.006; NiO 0.0008-0.0028; Se 0.0015-0.0030 l.

However, the specified glass composition cannot be used for the manufacture of light filters for steelmakers, since the glass has a bronze color and does not provide protection against the blinding brightness of the object and does not have sufficient protection in the ultraviolet and infrared regions.

The closest to the invention to the technical essence and the achieved result is ets glass for optical filters of the following composition, wt.%: SiO 67.5-72,5; CaO, 0; MgO 3.0-3.5; NkjO 14.5-16; KjO 1.02, 5; Pe-jO, 0.2-1.3: CoO 0.6-1.0; L1.0 1.5-4.0; PjO 0.2-2.0. In addition, the glass may contain, wt%: NdiOi 1.0-5.0 or N10 0.1-0.2 or TiO 2.5--5.0 2.

However, the known filters have a reddish tint, which is irritating to the eyes of steelworkers. The color tone of these filters is in the range of 550-570nm. which corresponds to the reddish-purple and purple areas on the chromaticity graph.V

The known light filters provide the necessary protection against ultraviolet and infrared radiation, but have a low color contrast of 0.43-1.42. Light filters with such low contrast are suitable for operation at temperatures from 1330 to.

For operation at higher temperatures, the known filters are not suitable, since they have a low

20 contrast, makes it impossible to clearly distinguish between the boundaries of steel and slag.

Therefore, when operating in metallurgical furnaces with temperatures above 1570 ° C, it is necessary to create filters with a contrast ratio greater than 1.42.

The aim of the invention is to obtain a contrast in the range of 1.5-5.0.

The goal is achieved by the fact that glass, including SiO, AljOj,

30 CaO, MgO, NajO, FejO, CoO, NiO, additionally contains CuO and in the following ratio of components, wt.%: SiO-z68-73, 2-3.0 CaO5.0-8.0 MgO3.0-4, 0 NajO14.0-16.8, 8-1.5 CoO0.5-0.8 NiO 0.05-0.2 CuO0.1-0.5, 01-0.35. The glass contrast is characterized by the value of the ratio of the transmission area of the light flux of the red part of the spectrum to the area of the transmittance of the blue part of the spectrum to the Survey 650-760 nm blue D400-500 nm. The contrast of the glass can be increased either by decreasing the transmittance in the blue part of the spectrum or increasing in the red part However, an increase in the transmittance in the red part is undesirable, since this reduces the protective properties of the optical filter from the infrared and increases its reddish tint. A reduction in the transmission in the shinai part of the spectrum is achieved by introducing chromium oxide. The presence of Cr, O in glass in an amount of 0.01-0.35 wt.% Having an absorption maximum in the region of 400-500 nm ensures a reduction in the transmission in this region and an increase in color contrast in the range of 1.5-5.0. . Introduction to the composition of glass CuO in an amount of 0.1-0.5 wt.% Leads to

The tables change the color tone, which is in the region of 470-400 nm, which corresponds to the bluish-purple, purple-blue and blue areas on the chromaticity graph. In tab. 1 shows the glass compositions. The contrast values of the light filters of the glass compositions 1-8, respectively, 3, 7; 1.7; 3.1; 4.6; 4.0; 5.0; 1.5; 4.0. As can be seen, the contrast value of the proposed glass exceeds the contrast value of the known. This allows the use of the proposed glass for light filters, which provide enhanced contrast and necessary protection in the ultraviolet and infrared regions when working with an object at 1570-1800s. The values of the physicochemical properties of the glasses offered are presented in Table. 2. Glasses are cooked in conventional glass furnaces at a temperature not higher. The main components are introduced through sand, soda, dolomite, chalk, clay-earth. The dyes are introduced through iron oxide, cobalt oxide, copper oxide, nickel oxide, and chromium oxide. Light filters made of glass offer an advantage over the existing ones, since, along with protective functions, they provide contrasting vision, allowing us to clearly distinguish the molten metal, slag, the state of the lining and the course of the smelting process. The application of the proposed protective light filters leads to the improvement of working conditions and the prevention of injuries.

Table 2

85 85 86 85 87 88 90 87

603 601 596 598 595 590 588 590

Claims (2)

0.1440.14 0.150.20 0.24 0.29- 0.23 Claims Glass for optical filters including SiO, CaO, MgO, FejOj, CoO, NiO, characterized in that, in order to obtain a contrast ratio within 1.5-5.0, it additionally contains ССО and CrjO in the following ratio of the indicated components, wt.%: SiOi; 68.0-73.0, 1.2-3.0 CaO 5.0-8.035. MgO .3.0-4.0 ave cl number (p 14.0-16.8 0.8-1.5 0.3-0.8 0.05-0.2 0.1-0.5 0 , 01-0.35 Sources of information that are taken into account in the examination 1. French Patent No. 2082647, C 03 C 3/00, published 1972. 2. Authors certificate of the USSR 89218, cl. C 03 C 3/04, 1976)