LUX ARCHITECTURAL PRODUCTS

Test reports

A growing collection of resources to satisfy all your code, installation and design needs.

Important Building Codes

LUX Architectural Products adheres to all the building codes that are required for you to safely and securely use LUX for your next project. 

Remember that LUX Architectural Products meets and conforms to the CGSB-93.4-92 as per standards Council of Canada, National Research Council Canada, National Building Code of Canada. This means it meets the building codes required to be applied to your residential and commercial projects. LUX Architectural Panel also passes the ASTM B117 Salt Spray Test and can be used on all your coastal projects!

LUX-Installation-Vertical

Flame Spread Test

View our CAN/ULC S102-10, Standard Method of Test for Surface Burning Characteristics of Building Materials and Assemblies. LUX Architectural Products Passes with a ZERO flame spread rating and a 5/100 smoke rating. This gives LUX Architectural Products a Class-A fire rating!

Building Materials Non-Combustibility

View our CAN/ULC S114-05, Standard Method of Test for Determination of Non-Combustibility in Building Materials. LUX Architectural Products Passes with a ZERO Flaming and ZERO Material Loss. This gives LUX Architectural Products a Class-A fire rating!

Tube Furnace Test

View our ASTM E136-16, Report of testing for Behavior of Materials in a Vertical Tube Furnace at 750°C.

LUX Architectural Products Passes with a ZERO Flaming and ZERO Loss of material. 

This gives LUX Architectural Products a Class-A fire rating!

ICC-ES TEST REPORT

Our ICC-ES Test Reports confirm that LUX products meet the highest performance and safety requirements, giving you peace of mind for your residential and commercial projects.

With ICC-ES certification, LUX Architectural Products are verified for durability, reliability, and code compliance, making them a trusted choice for any build.

Wind Load Test

View our NRC-CNRC Windload test in which LUX Architectural Products Passes with “…no permanent deflection or visually apparent degradation was observed in the cladding”