CWW-N150 Window Wall
Window wall system CWW-N15 is similar to unitized curtain wall system, but are generally less sophisticated. These systems are common on small and medium sized buildings. Like curtain walls, window wall panels are largely prefabricated off-site (commonly in China) and shipped to site. They are normally installed sequentially, but installation can potentially take place over a number of floor at once. Generally window wall panels are installed between each single floor(it is supported by the slab below and above), and more flexible than unitized curtain wall.
- Overview
- Data
- Benefit
- Configuration
Overview of CWW-N150 Window Wall
System: | Window Wall(Non Thermal Break) |
Model No.: | CWW-N150 |
Material: | Aluminum Alloy/Glass/Aluminum Sheet/Aluminum Composite Panel/Galvanized Sheet |
Glass Type: | Tempered/Float/Laminated/DGU/Ceramic Fritted/LowE/Tinted/Reflective/Heat Soak |
Cooperated Glass Brand: | Vitro(Formerly PPG)/Pilkington/Xinyi(SYG)/Yaopi(SYP)/Fuyao/Southglass(SG)/Kibing/CNG/TaiwanGlass |
Surface Treatment: | Powder Coating/PVDF/Anodized/Electrophoresis/Wooden Grain |
Profile Brand: | 6063-T5/6063-T6 |
Themral Profile: | Non-Thermal Break |
Standards: | In Complianca With ASTM/AS/NZS/AAMA/NFRC/EN/BSI/ISO |
Application: | Residential Apartment,Villa/Commercial Hotel,Mall,Office,Public Organization |
System Customziation: | Available |
Data of CWW-N150 Window Wall
Testing Data of CWW-N150 Window Wall
Test | Pressure | Results |
Preloading(Clause 8.2.2 of AS/NZS4284:2008) | +2.58kpa | No separation, plastic deformations or deleterious was observed |
-2.58kpa | ||
Preliminary Water Penetration Test under Static Pressure (Clause 8.2.3 of AS/NZS 4284:2008) | +774kPa | No water leakage was observed. |
Preliminary Water Penetration Test under Cyclic Pressure (Clause 8.2.3 of AS/NZS 4284:2008) | 387-774-387 (Pa) | No water leakage was observed. |
516-1032-516 (Pa) | ||
774-1548-774 (Pa) | ||
Structural Test at Serviceability Limit State Wind Pressure (Wsls)(Clause 8.3 of AS/NZS 4284:2008) | +2.58kpa | During the structural test at SLS wind pressure, the deflections of all related members were within the allowable deflection limits. |
-2.58kpa | ||
Operating force test (AS 2047-2014) | -- | The operating force was within the allowable value. |
Air Infiltration Test (Clause 8.4 of AS/NZS 4284:2008) | +/-150Pa | The rate of air leakage of the specimen was within the allowable values. |
Water Penetration Test under Static Water Penetration Test under Static 4284:2008) | +774Pa | No water leakage was observed. |
Water Penetration Test under Cyclic Pressure (Clause 8.6 of AS/NZS 4284:2008) | 387-774-387 (Pa) | No water leakage was observed. |
516-1032-516 (Pa) | ||
774-1548-774 (Pa) | ||
Structural ProofTest at Ultimate Limit State Wind Pressure (Wuls) (Clause 8.8 of AS/NZS 4284:2008) | +4.00kpa | No collapse of the test specimen was observed under the specified pressure. |
-4.00kpa |
Thermal Data of CWW-N150 Window Wall
NFRC procedures | NFRC100SB, NFRC200-2010 and NFRC500-2010 |
Software tools: | THERM 7.4.3.0 and WINDOW 7.4.6.0 |
Configuration | 6mm LB13-45#2HS+12AR+6mm Clear HST |
Panel Dimension | 1700mm Wide x 2750mm High |
Frame | Painted Aluminum |
Panel U-value | 3.185W/m2k |
Visible Light Transmission | 0.301 |
Condensation Resistant | 34.1 |
Frame Data of CWW-N150 Window Wall
Parts Location | Frame Area/m2 | Edge Area/m2 |
U-Value(Frame) W/m2k |
U-Value(Edge) W/m2k |
Left Header | 0.0650 | 0.0450 | 11.7187 | 1.8571 |
Left Jamb | 0.2140 | 0.1610 | 11.6815 | 1.8544 |
Right Header | 0.0650 | 0.0450 | 11.7187 | 1.8571 |
Mullion | 0.1820 | 0.3150 | 6.2420 | 1.4047 |
Right Jamb | 0.2140 | 0.1610 | 11.6815 | 1.8544 |
Left sill | 0.0530 | 0.0450 | 14.7773 | 1.9316 |
Right sill | 0.0530 | 0.0450 | 14.7773 | 1.9316 |
Glass Data of CWW-N150 Window Wall
Glass Data: 6mm LB13-45#2HS+12AR+6mm Clear HST | |||||||
Visible Light | SHGC | SC |
NFRC U-value W/m3k(Argon) |
STC | |||
T% | R-out% | R-in% | Winter | Summer | |||
40 | 20 | 13 |
|
0.26 | 1.43 | 1.36 | 36 |
Benefit of CWW-N150 Window Wall
-
Flexible for different buildings
-
Reduction of installation difficulty
-
Cost efficient
-
Shorter project schedule
-
A expanded view for daily routine
-
Stable themral performance
-
Minimum after sales service & maintaining
-
Increased comfort level