TH19075A - Mixture of golden bronze glass - Google Patents

Abstract

The invention provided a mix of glass with a golden bronze color. And transmission Luminosity (visualization) of 70% or more, the base of the glass is a soda-lime-silica mixture, and ion and selenium are added as coloring agents. In a specific way, one of the invention methods could have been bronze golden glass. The luminance transmittance (CIE luminance A) of 70% and higher at 4.1 mm thickness by the use of pigments was Fe203 0.38 to 0.48% by weight, FeO to 0.13% by weight and Se 3 to 15 PPM. And popular Fe203 0.395 to 0.465% by weight, FeO 0.075 to 0.12% by weight and Fe 6 to 12 PPM. In addition, it is popular that the total solar energy transmission is not more than 65%.

Claims (4)

1. Mixture of glass with a golden bronze color. Which has a base of glass Containing SiO2 66 - 75% by weight, NaO 10 - 20% by weight, CaO 5 - 15% by weight, MgO 0 - 5% by weight, AI2O3 0 - 5% by weight, K2O 0 - 5% by weight and coloring additive. It must contain 0.38 to 0.48% Fe2O3 (total ion) with FeO weight 0.13% by weight Se 3 - 15 PPM. Glass has a luminous transmittance of 70% or more at 4.1 mm. Characterize by length The dominant wave is in the range 560 to 580 nm, and at least 5% excitation purity is 4.1 mm thick. 2. Mixture according to claim 1, where the Fe2O3 concentration is From 0.395 to 0.465% by weight, the FeO concentration is from 0.075 to 0.12% by weight and the Se concentration is from 6 to 12 PPM. 3. Mixture according to claim 1 or 2, where the color of the glass is indicated. Characteristic by wavelength The predominant range is 565 to 575 nm and the purity of the excitation is 6 to 9%. 4. Mixture, as in claim 1 or 2, the transmission of energy Total solar work is 65% or less. 5. Mixture according to claim 1, which includes the suction material. Swallow additional ultraviolet 6. Mixture according to claim 5, which ultraviolet absorbent material Such modifiers are the oxides of the material selected from the group that Must contain mostly cerium, vanadium, titanium and molybdenum, and these substances together in an amount of 2.0% by weight of glass mixtures.7.Mixtures according to claim 6, which TiO2 is from 0.1 to 1.0. 8. Mixture according to claim 7, which TiO2 is from 0.2 to 0.5% by weight 9. Glass plates prepared from mixtures refer to Clause 1 1 0. Sheets Glass according to claim 9, where plates are between 1.8 and 6 mm thick 1 1. Glass plates according to Clause 9, which the color of the glass shows Specifically, the dominant wavelength ranges from 565 to 575 nm and excitation purity is 6 to 9%. 2. Mixture of glass with a golden bronze color. Which has a base of glass containing SiO2 66 - 75% by weight, Na2O 10 - 20% by weight, CaO 5 - 15% by weight, MgO 0 - 5% by weight, AI2O3 0 - 5% by weight, K2O 0 - 5% by weight and The coloring agent must contain 0.38 to 0.48% Fe2O3 (total ion) by weight FeO 0.13% by weight Se 3 - 15 PPM CoO 0 - 5 PPM NiO 0 - 50 PPM Cr2O3 0 - 50 PPM glass Yes The luminous transmittance of 70% or more at a thickness of 4.1 mm and which the color of the glass is Characteristic by length The dominant wave ranges from 560 to 580 nm and excitation purity is at least 5% at a thickness of 4.1 mm 1. 3. Mixture according to claim 12, which the energy transmission Total solar is 65% or less 1. 4. Mixture according to claim 12, which includes further materials. Swallow more ultraviolet