TH11912B - Green glass mixtures absorb infrared and ultraviolet rays. - Google Patents

Abstract

DC60 (28/03/44) This invention provides a green colored glass that provides the basic compound of soda-lime-silica glass and, in addition, an optional iron, cerium, chrome and titanium as a suction material. Swallowing infrared rays And ultraviolet and coloring agents, especially green glass including 0.50 to 1.0% total iron, 0.35 to 0.65% Fe2O3 0.35 to 0.65% wt, CeO2 0.8 to 1.5% wt and Cr2O3 20 to 150 ppm. Reach TiO2 0 to 0.7% by weight with the glass redox ratio of this invention. Were maintained between 0.20 and 0.40 and the mixture had at least 65% light transmittance (LTA) should be at least 70% and total solar ultraviolet light transmittance (TSUV) of not more than 38% should be used. Is not more than 35% infrared light transmittance from Total solar radiation (TSIR) of not more than 35% should be used, ie not more than 30%, and The total solar energy (TSET) should not be greater than 50%, which is no more than 48%. In addition, the glass should have an ultraviolet light transmittance (ISO UV) of not more than 15%, preferably no more than 10. Characteristic green at the dominant wavelength in the range of 500 to 550 nm and a purity from stimulation of not more than 5%. The invention provides a glass in green color that provides a basic compounding agent of soda-lime-silica glass and, in addition, optional cerium, chrome and titanium iron as infrared and ultraviolet absorbers and additives. Paint, especially green glass, includes 0.50 to 1.0% total iron by weight, 0.35 to 0.65% Fe2O3 wt, 0.8 to 1.5% CeO2 wt. And 20 to 150 ppm Cr2O3.Glass may include TiO2 0 to 0.7% wt. The redox ratio for the glass of this invention was maintained between 0.20 and 0.40 and the mixture had a light transmittance (LTA) of at least 65%, preferably at least 70% and transmittance. Total solar ultraviolet light (TSUV) of no more than 38% should be used, ie no more than 35%, total solar infrared light transmittance (TSIR) of not more than 35%, that should be used is not more than 30% and power transmission. Total solar work (TSET) of not more than 50% should be used, ie not more than 48%. In addition, the glass should have no more than 15% ultraviolet light transmittance (ISO uv) should be used, ie no more than 10 glass of fabrication. This has a unique green color that Dominant wavelength in the range of 500 to 550 nm and excitation purity not more than 5%.

Claims (2)

Disclaimer (all) which will not appear on the advertisement page. : Green glass mixtures absorb infrared and ultraviolet rays 1. Infrared absorbing glass mixtures And green ultraviolet containing approximately 66 to 75% SiO2 by approx. 10 to 20% Na2O by 5 to 15% CaO by weight, approximately 5 to 5% MgO by Al2O3 0 to approx. 5% by weight K2O 0. Up to approximately 5% by weight of iron Approximately 0.50 to 1% by weight, Fe2O3 approximately 0.35 to 0.65% by weight, CeO2 approximately 0.8 to 1.5% by weight, TiO2 0 to approximately 0.7% by weight, and Cr2O3 approximately 20 to 150 ppm, where the glass is light transmittance (LTA ) Approximately 65% or more 2. Mixture according to claim 1, where the total iron concentration is approximately 0.6 to 0.8, the concentration of Fe2O3 is approximately 0.4 to 0.5% by weight, the CeO2 concentration is approximately 0.9 to 1.4% by weight, TiO2 concentrations range from approximately 0.2 to 0.6% w / Cr2O3 weight and Cr2O3 concentrations from approximately 40 to 75 ppm, and additionally, glass has approximately 70% light transmittance (LTA), or More than that Total solar ultraviolet light transmittance (TSUV) is not more than 38%, and the color characteristic Only at the dominant wavelength in the range of 500 to 550 nm and the excitation purity of not more than 5% 3. Mixture according to claim 2, where the Fe2O3 concentration is less than 0.48% by weight and the glass has a redox value. 0.27 or more 4. Mixture according to claim 2, which the glass has Through the total solar infrared light (TSIR) of approximately 35% or less, the total solar energy transmittance (TSET) is approximately 65% or less, and the ultraviolet light transmittance (ISO uv) is approximately 15% or less. 6. Mixture according to claim 4, where the glass has an optical transmittance (LTA) of approximately 71.5% or more and an ultraviolet light transmittance (ISO uv) of approximately 12% or less. Article 4, which the mirror has transmittance 10% or less ultraviolet light (ISO uv) 7. Mixture according to claim 4, in which the color of the glass is Only at the dominant wavelength range from approx. 515 to 540 nm and excitation purity not more than approx. 3% 8. Glass plates prepared from mixtures referred to in claim 1 9. Suction glass mixtures. Swallowing infrared rays And green ultraviolet with glass-based parts Which contains approximately 66 to 75% SiO2 with approx. 10 to 20% Na2O with approx. 5 to 15% CaO with approx. 0 to approx. 5% MgO wt. 0 to approx. 5% Al2O3 wt. 0 to approx. 5% K2O wt. 0 to approx. 5. % By weight and solar absorption fraction and colorant fraction This is mainly composed of 0.50 to 1% total iron, approximately 0.35 to 0.65% Fe23 by weight, approximately 0.8 to 1.5% CeO2, 0 to 0.7% TiO2 weight with approximately 20 to 150 ppm Cr2O3 weight. Light transmittance (LTA) is approximately 65% or more and total solar ultraviolet light transmission (TSUV) is approximately 38% or less. 1 0. Mixture according to claim 9, which contains iron concentrations. The total concentration of Fe2O3 ranges from approximately 0.6 to 0.8% by weight. The concentrations of Fe2O3 range from approximately 0.4 to 0.5% by weight 1. 1. Mixture according to Clause 10, with CeO2 concentrations ranging from approximately 0.9 to 1.4% by weight. TiO2 concentrations ranged from 0.2 to 0.6% by weight. Cr2O3 concentrations ranged from approximately 40 to 75 ppm 1 2. Mixture according to claim 11, the iron concentration was In total, the concentration of Fe2O3 was less than 0.48% by weight.CeO2 concentrations ranged from approximately 1 to 1.3% by weight, and TiO2 concentrations ranged from approximately 0.3 to 0.5% by weight, and Cr2O3 concentrations were available. From approx. 40 to 60 ppm 1 3. Mixture according to claim 11 where the Fe2O3 concentration is less than 0.48% by weight and the glass has a redox value of 0.27 or more. 11 Which glass is precious Light transmittance (LTA) of approximately 70% or more and ultraviolet light transmittance (ISO uv) is not more than approximately 15% 1 5. Mixture according to claim 14, the glass has an approximate light transmittance (LTA). 71.5% or more and the transmittance of ultraviolet light (ISO uv) is not greater than approx. 12% or less 1 6. Mixture according to claim 14, which glass is highly sensitive. Through ultraviolet light (ISO uv) not more than approx. 10% 1 7. Mixture according to Clause 14, which the glass is highly sensitive. Through approximately 35% or less of total solar infrared light (TSIR). And the total solar energy transmittance (TSET) is approximately 65% or less. 1 8. Mixture according to claim 14, in which the color of the glass has Characteristics at dominant wavelengths in the range from approximately 500 to 550 nm and excitation purity not greater than approximately 5% 1 9. Mixture according to claim 18, in which the color of the glass has Characteristic at the dominant wavelength in the range from approx. 515 to 540 nm and excitation purity not greater than approx. 4% 2 0. Glass plates prepared from mixtures referred to in Clause 9 2 1. Glass sheet according to claim 20, which has a thickness of between 1.5 and 5 mm. 2 2. Glass plate prepared from a mixture referred to in claim 18 2 3. Mixture of radiation absorbing glass. Green infrared and ultraviolet with glass-base parts Which contains approximately 66 to 75% SiO2 with approx. 10 to 20% Na2O with approx. 5 to 15% CaO with approx. 0 to approx. 5% MgO wt. 0 to approx. 5% Al2O3 wt. 0 to approx. 5% K2O wt. 0 to approx. 5. % By weight and solar absorption fraction and colorant fraction Which consists mostly of total iron, approximately 0.5 to but less than 0.7% by weight of Fe23 approximately 0.35 to but less than 0.48% by weight of CeO2 approximately 0.8 to 1.5% by weight TiO2 0 to 0.7% by weight of Cr2O3 approximately 20 to 150 ppm, the glass has a redox value of 0.27 or more, the light transmittance (LTA) is about 65% or more. And transmittance Ultraviolet light Total sunlight (TSUV) is approximately 38% or less. In which the color of the glass is unique in that The dominant wave ranges from approximately 515 to 540 nm. 2 4. Mixture according to claim 23, the color of the glass has Characteristics at dominant wavelengths in the range from approximately 520 to 535 nm and excitation purity approximately 4% or less 2 5. Mixture according to claim 23, where CeO2 concentrations range from approximately 0.9 to 1.4% by weight TiO2 concentrations range from approximately 0.2 to 0.6% by weight, Cr2O3 concentrations range from approximately 40 to 75 ppm 2 6. Mixture according to claim 23, where CeO2 intensity ranges from approximately 1 to 1.3. % By weight and TiO2 concentration ranges from approximately 0.3 to 0.5% by weight and Cr2O3 concentration ranges from approximately 40 to 60 ppm 2. 7. Mixture according to claim 25, in which the glass is light transmittance. (LTA) from about 70% or more. Total solar infrared light transmittance (TSIR) is about 35% or less. And transmittance of light energy Total Sun (TSET) approximately 65% or less 2 8. Mixture according to claim 27, where the glass has approximately 71.5% or more light transmittance (LTA) and ultraviolet light transmittance (ISO uv). Approximately 12% or less. 2 9. Mixture according to claim 27, which the glass has Through ultraviolet light (ISO uv) about 10% or less. 3 0. Mixture according to claim 29, which the glass is highly sensitive. Passes 10% or less of ultraviolet light (ISO uv) 3 1. Glass plates prepared from mixtures referred to in Clause 23.3. 2. Infrared absorption glass mixtures And green ultraviolet with glass-based parts Which contains approximately 66 to 75% SiO2 with approx. 10 to 20% Na2O with approx. 5 to 15% CaO with approx. 0 to approx. 5% MgO wt. 0 to approx. 5% Al2O3 wt. 0 to approx. 5% K2O wt. 0 to approx. 5. % By weight and solar absorption fraction and colorant fraction Which consist mostly of 0.5 to 1% total iron, approximately 0.35 to 0.65% Fe2O3 by approx. 0.8 to 1.5% CeO2 by 20 to 150 ppm Cr2O3, TiO2 0 to 0.7% by weight MnO2 0 to approximately 0.5% by SnO2 0 to approx. 2.0% w / ZnO 0 to approx. 0.5% w / Mo 0 to approx.0.015% wt.