Abstract: Glasses are disclosed having a composition comprising the following oxides (in weight %): SiO2 61 to 70%, Al2O3 0 to 9%, Na2O 10 to 13%, K2O 0 to 1%, MgO 2 to 6%, CaO 6 to 16%, SrO 0 to 1%, ZrO2 0 to 1%, TiO2 2 to 15%, the glasses having a strain point greater than 570° C. The glasses have good dimensional stability at high temperatures, making them suitable for fire protection glazings and substrates which are processed at elevated temperatures, e.g. substrates for display panels, information storage discs and semiconductor devices, including photovoltaic cells. Physical properties of the glasses, such as thermal expansion coefficient, density and refractive index, are disclosed, as are the melting and liquidus temperatures. The glasses are suitable for manufacture by the float process, yielding flat glass in the form of sheets.

Abstract: Glasses are disclosed having a composition comprising the following oxides (in weight %): SiO2 61 to 70%, Al2O3 0 to 9%, Na2O 10 to 13%, K2O 0 to 1%, MgO 2 to 6%, CaO 6 to 16%, SrO 0 to 1%, ZrO2 0 to 1%, TiO2 2 to 15%, the glasses having a strain point greater than 570° C. The glasses have good dimensional stability at high temperatures, making them suitable for fire protection glazings and substrates which are processed at elevated temperatures, e.g. substrates for display panels, information storage discs and semiconductor devices, including photovoltaic cells. Physical properties of the glasses, such as thermal expansion coefficient, density and refractive index, are disclosed, as are the melting and liquidus temperatures. The glasses are suitable for manufacture by the float process, yielding flat glass in the form of sheets.

Abstract: Glasses are disclosed having a composition comprising the following oxides (in weight %): SiO261 to 70%, Al2O3 2 to 15%, Na2O 10 to 13%, K2O 0 to 1%, MgO 2 to 6%, CaO 6 to 16%, SrO 0 to 1%, ZrO20 to 15%, TiO2 0 to 1%. The glasses may have a strain point greater than 570 ° C., and good dimensional stability at high temperatures, making them suitable for fire protection glazings and substrates which are processed at elevated temperatures, e.g. substrates for display panels, information storage discs and semiconductor devices, including photovoltaic cells. Physical properties of the glasses, such as thermal expansion coefficient, density and refractive index, are disclosed, as are the melting and liquidus temperatures. The glasses are suitable for manufacture by the float process, yielding flat glass in the form of sheets.

Abstract: Glasses are disclosed having a composition comprising the following oxides (in weight %): SiO2 61 to 70%, Al2O3 0 to 9%, Na2O 10 to 13%, K2O 0 to 1%, MgO 2 to 6%, CaO 6 to 16%, SrO 1 to 8%, ZrO2 0 to 10%, TiO2 0 to 10%. The glasses may have a strain point greater than 570° C., and good dimensional stability at high temperatures, making them suitable for fire protection glazings and substrates which are processed at elevated temperatures, e.g. substrates for display panels, information storage discs and semiconductor devices, including photovoltaic cells. Physical properties of the glasses, such as thermal expansion coefficient, density and refractive index, are disclosed, as are the melting and liquidus temperatures. The glasses are suitable for manufacture by the float process, yielding flat glass in the form of sheets.

Abstract: Glasses are disclosed having a composition comprising the following oxides (in weight %): SiO2 61 to 70%, Al2O3 0 to 9%, Na2O 10 to 13%, K2O 0 to 1%, MgO 2 to 6%, CaO 6 to 16%, SrO 0 to 1%, ZrO2 2 to 15%, TiO2 0 to 1%. The glasses may have a strain point greater than 570° C., and good dimensional stability at high temperatures, making them suitable for fire protection glazings and substrates which are processed at elevated temperatures, e.g. substrates for display panels, information storage discs and semiconductor devices, including photovoltaic cells. Physical properties of the glasses, such as thermal expansion coefficient, density and refractive index, are disclosed, as are the melting and liquidus temperatures. The glasses are suitable for manufacture by the float process, yielding flat glass in the form of sheets.

Abstract: A solar unit glass plate having a composition comprising the following constituents, the amounts of which are expressed as percentages by weight: SiO2 60-75%; Al2O3 0-5%; Na2O 10-18%; K2O 0-5%; CaO 0-11%; MgO 0-5%; SO3 0-1%; Fe2O3<0.15%; and one or both of: SrO 0-15% and BaO 0-15%, with the proviso that the summed amount of SrO and BaO is greater than 1%. Also a glass plate for use as a cover plate or backing plate for a solar unit, the plate having a composition comprising the following constituents, similarly expressed: SiO2 65-74%; Al2O3 0-3%; Na2O 12-15%; K2O 0-2%; CaO 0-11%; MgO 0-2%; SO3 0-1%; Fe2O3 (total iron)<0.1%; and one or both of: SrO 2-10% and BaO 1.5-10%, with the proviso that the summed amount of SrO and BaO is greater than 2%.