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Fully Tempered Glass is produced by heating annealed glass in a furnace to approximate 700℃ and then rapidly blowing cool air onto its surface. This rapid cooling process (quenching) is the key element in the physical changes in annealed glass; it creates additional stresses within the glass. Therefore it is more resistant to thermal breakage and is capable of withstanding higher wind loads.
SPECIFICATIONS OF TEMPERED GLASSMaximum Size: 2440×6000mm (96”×236”)
Minimum Size: 150×250mm (7 7/8’’”×15 3/4”)
Thickness: 3-22mm (1/8”-7/8”)
CERTIFICATION
Minimum Size: 150×250mm (7 7/8’’”×15 3/4”)
Thickness: 3-22mm (1/8”-7/8”)
CERTIFICATION
- China CCC Safety Glass Certificate (GB15763.2)
- SGCC Certificate for safety glass (US) (ANSI Z97.1, CPSC16 CFR1201)
- BS EN Kitemark Certificate for safety glass (UK) (BS EN 12600, BS EN 12150 and BS EN 14449)
- Australian and New Zealand Safety Glass Certificate (by SAI Global) (AS/NZS2208)
- Chinese Standard GB15763.2 Safety glazing materials in building-Part 2: Tempered Glass
- ASTM C-1048 Standard specification for heat-treated flat glass: kind HS, kind FT coated and uncoated glass
- ANSI Z97.1 Glazing materials used in buildings - Safety performance specification and methods of test
- BS EN 12150 Glass in building. Thermally toughened soda lime silicate safety glass.
- BS EN 12600:2002 Glass in building - Pendulum test. Impact test method and classification for flat glass.
- BS 6206 Specification for impact performance requirements for flat safety glass and safety plastics for use in buildings
- JIS R 3206 Tempered Glass
- Australian and New Zealand Standard AS/NZS2208 Safety glazing materials in buildings
