Already outperforming most louvre windows on the market Safetyline Jalousie’s recent test results elevate them to a whole new level of performance. Higher ratings in wind and water resistance window performance now make Safetyline Jalousie louvre windows an even more versatile option for architects looking for sustainable solutions and new design possibilities.
Tests undertaken by an independent NATA accredited test laboratory in May 2016 indicate that the Ultimate Limit State (ULS) rating for Safetyline Jalousie glass louvre windows is now up to an impressive 9525pa.
In tests for Water Penetration Resistance, results show an amazing increase in performance. Results of 800pa were achieved for all span widths.
Serviceability Limit State (SLS) testing was also conducted with equally impressive results of up to 4000pa.
Now more than ever, architects can have even greater confidence when specifying Safetyline Jalousie louvre windows.
Wind Pressure – Ultimate Limit State (ULS)
The following table lists actual test results conducted by a NATA accredited Test laboratory.
Product Type | Test report No | ULS – POS | ULS – NEG | Width |
Glass Louvre | AZT0118-16 | 9000pa | 8200pa | 800mm |
Glass Louvre | AZT0119-16 | 9000pa | 8500pa | 1000mm |
Glass Louvre | AZT0117-16 | 9524pa | 8200pa | 1400mm |
Wind Pressure – Serviceability Limit State (SLS)
The following table lists actual test results conducted by a NATA accredited Test laboratory.
Product Type | Test report No | SLS | Width |
Glass Louvre | AZT0118-16 | 4000pa | 800mm |
Glass Louvre | AZT0119-16 | 3000pa | 1000mm |
Glass Louvre | AZT0117-16 | 1900pa | 1400mm |
Water Penetration Resistance
The following table lists actual test results conducted by a NATA accredited Test laboratory.
Product Type | Rest report No | Performance | Width |
Glass Louvre | AZT0018-16 | 800pa | 800mm |
Glass Louvre | AZT0017-16 | 800pa | 1400mm |
Click here for other performance information.
Contact us to know more about Safetyline Jalousie’s high-quality louvre windows that can withstand the strongest pressures from winds, cyclones and hurricanes.