to series Pilkington Suncool®
to series Pilkington Suncool®

Pilkington
Suncool® 30/16 Pro T

Architectural glass with maximum solar protection

Designed for use in large façade structures and horizontal roof structures 

Due to its extremely low solar factor (19%), it is the best solution when reducing the solar thermal load on a building is a priority.

The product must be hardened. Bending, lamination, ceramic and organic paints are possible.

For those cases where heat treatment of glass is not required, there is a non-tempering version of the product – Pilkington Suncool 30/17

Advantages

  • Neutral shade

    Neutral shade

    The most neutral shade in reflected light and in the lumen

  • Excellent solar protection

    Excellent solar protection

    Blocks solar heat and maintains indoor comfort in summer

  • Protection from cold

    Protection from cold

    Blocks heat loss and maintains indoor comfort in winter
  • Saving

    Saving

    Helps to reduce air conditioning and heating costs

  • All types of processing

    All types of processing

    Tempering, molling, lamination, application of ceramic and organic paints

  • Double Silver

    Double Silver

    Created by the technology of double silver magnetron coating

Indicators

LT
LRout
LRin
DET
ER
EA
SF
SC
Ug
Ug
% % % % % % % % W/m 2 К W/m 2 К
Light transmission, LT, % 30 Light reflectance out, LRout, % 26 Light reflectance inside, LRin, % 11 Direct energy transmittance, DET, % 16 Energy reflectance, ER, % 37 Energy absorptance, EA, % 47 Solar factor, SF, % 19 Shading coefficient, SC, % 0.22 Ug-value (air-filled), W/m 2 К 1.1 Ug-value (argon-filled), W/m 2 К 0.68
Characteristics calculated for formula 6 | - 16 Ar - 4 Optifloat in accordance with GOST EN 410-2014, GOST EN 673-2016 (R0 for Moscow conditions using the STIS thermal calculator software).
LT
LRout
LRin
DET
ER
EA
SF
SC
Ug
Ug
% % % % % % % % W/m 2 К W/m 2 К
Light transmission, LT, % 30 Light reflectance out, LRout, % 16 Light reflectance inside, LRin, % 11 Direct energy transmittance, DET, % 16 Energy reflectance, ER, % 37 Energy absorptance, EA, % 47 Solar factor, SF, % 19 Shading coefficient, SC, % 0.22 Ug-value (air-filled), W/m 2 К 1.3 Ug-value (argon-filled), W/m 2 К 1.0
All values are calculated for the central area of the IG unit 6| - 16 Ar - 4 according to EN 410 and EN 673 climatic conditions.
LT
LRout
LRin
DET
ER
EA
SHGC
SC
Ug
Ug
% % % % % % % % W/m 2 К W/m 2 К
Light transmission, LT, % 29 Light reflectance out, LRout, % 27 Light reflectance inside, LRin, % 10 Direct energy transmittance, DET, % 13 Energy reflectance, ER, % 39 Energy absorptance, EA, % 48 Solar heat gain coefficient, SHGC 18 Shading coefficient, SC 0.21 Ug-value (air-filled), W/m 2 К 1.26 Ug-value (argon-filled), W/m 2 К 1.38
All values are calculated of the IG unit 6| - 16 - 6 according to NFRC 100-2010 climatic conditions using a production database with Window 6.3.

Technical data

  • Formats: Jumbo (6000 x 3210 mm), LES (2550 x 3210 mm)
  • Thickness: 4, 6, 8, 10, 12
  • Use in an IG Unit: mandatory, coated inside
  • Must be hardened: must be hardened
  • Can be bent: must be
  • Can be laminated: must be
  • Decoration: ceramic and organic paints can be used

Application area