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A platform for research: civil engineering, architecture and urbanism
Production method of anti-radiation building tempered laminated glass and anti-radiation glass
The invention discloses a production method of anti-radiation building tempered laminated glass, which comprises the following steps: cutting and edging a whole piece of glass to obtain a first glass layer, a second glass layer and a third glass layer; respectively carrying out heat treatment; coating the surface of the second glass layer with a film layer; cleaning and drying the first glass layer and the second glass layer; covering an SGP film bonding sheet between the first glass layer and the second glass layer; pre-pressing the laminated first glass layer and second glass layer by adopting a constant-temperature convection process; the prepressed first glass layer and the prepressed second glass layer are subjected to heat preservation; the first glass layer, the second glass layer and the third glass layer are arranged at intervals to form a hollow layer. According to the preparation process designed by the invention, a constant-temperature convection rolling process is adopted, so that the SGP film and the glass layer are uniformly heated, the production quality is improved, the production cost is reduced, and the production efficiency is improved.
本发明公开一种防辐射建筑钢化夹层玻璃的生产方法,其包括如下步骤:先对整片玻璃进行切割磨边,得到第一玻璃层、第二玻璃层和第三玻璃层;再分别进行热处理;对第二玻璃层的表面镀膜层;对第一玻璃层及第二玻璃层进行清洗烘干;对第一玻璃层与第二玻璃层之间覆SGP膜粘结合片;采用恒温对流工艺,对合片后的第一玻璃层与第二玻璃层预压;将预压后的第一玻璃层与第二玻璃层进行保温;将第一玻璃层和第二玻璃层及第三玻璃层间隔设置形成中空层。本发明设计的制备工艺,采用恒温对流的辊压工艺,使SGP膜与玻璃层受热均匀,提高生产质量,降低生产成本,提高生产效率。
Production method of anti-radiation building tempered laminated glass and anti-radiation glass
The invention discloses a production method of anti-radiation building tempered laminated glass, which comprises the following steps: cutting and edging a whole piece of glass to obtain a first glass layer, a second glass layer and a third glass layer; respectively carrying out heat treatment; coating the surface of the second glass layer with a film layer; cleaning and drying the first glass layer and the second glass layer; covering an SGP film bonding sheet between the first glass layer and the second glass layer; pre-pressing the laminated first glass layer and second glass layer by adopting a constant-temperature convection process; the prepressed first glass layer and the prepressed second glass layer are subjected to heat preservation; the first glass layer, the second glass layer and the third glass layer are arranged at intervals to form a hollow layer. According to the preparation process designed by the invention, a constant-temperature convection rolling process is adopted, so that the SGP film and the glass layer are uniformly heated, the production quality is improved, the production cost is reduced, and the production efficiency is improved.
本发明公开一种防辐射建筑钢化夹层玻璃的生产方法,其包括如下步骤:先对整片玻璃进行切割磨边,得到第一玻璃层、第二玻璃层和第三玻璃层;再分别进行热处理;对第二玻璃层的表面镀膜层;对第一玻璃层及第二玻璃层进行清洗烘干;对第一玻璃层与第二玻璃层之间覆SGP膜粘结合片;采用恒温对流工艺,对合片后的第一玻璃层与第二玻璃层预压;将预压后的第一玻璃层与第二玻璃层进行保温;将第一玻璃层和第二玻璃层及第三玻璃层间隔设置形成中空层。本发明设计的制备工艺,采用恒温对流的辊压工艺,使SGP膜与玻璃层受热均匀,提高生产质量,降低生产成本,提高生产效率。
Production method of anti-radiation building tempered laminated glass and anti-radiation glass
一种防辐射建筑钢化夹层玻璃的生产方法及防辐射玻璃
YANG SHIQUAN (author)
2022-06-24
Patent
Electronic Resource
Chinese
IPC:
E06B
Feste oder bewegliche Abschlüsse für Öffnungen in Bauwerken, Fahrzeugen, Zäunen oder ähnlichen Einfriedungen allgemein, z.B. Türen, Fenster, Läden, Tore
,
FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES, OR LIKE ENCLOSURES, IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
/
B32B
LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
,
Schichtkörper, d.h. aus Ebenen oder gewölbten Schichten, z.B. mit zell- oder wabenförmiger Form, aufgebaute Erzeugnisse
/
C03C
Chemische Zusammensetzungen für Gläser, Glasuren oder Emails
,
CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUS ENAMELS
HEAT-RESISTANT TEMPERED GLASS, AND PRODUCTION METHOD OF HEAT-RESISTANT TEMPERED GLASS
| European Patent Office | 2015