Curtain Wall: SMR900
SMR 900 is a completely new aluminium Curtain Wall system, totally engineered in the U.K. which has been fully tested in accordance with the procedures of BS 5368: Parts 1, 2 and 3 and the requirements set down by The Centre for Window and Cladding Technology.
SMR 900 advanced Curtain Wall system is available on fast track delivery either from stock at service centres or to order for specific profile lengths. It is compatible with all Rodnic window, door and ground floor systems as well as Rodnic's patent glazing range.
The system is based on a 50mm wide tubular box profile aluminium extrusion. Sections range from 60mm to 175mm in depth, sufficient to satisfy most structural requirements.
Thermally broken and compartment drained, SMR 900 Curtain Wall is designed for site erection to the highest industry standard. Maximum width: 2400mm. Maximum height to suit conditions.
All extruded frame members are fabricated from aluminium alloy: BS 6063, T6 to BS 1474: 1987 and in accordance with guidelines BS CP 118.
SMR 900 is sealed internally and externally, with EPDM frame gaskets with factory injection moulded vulcanised corner joints in compliance with BS 4255 and CWCT Guide to Good Practice 4.8.2.
SMR 900 is simple to fabricate with ordinary tooling. Press tolling can be developed for the larger user.
All Rodnic Curtain Wall systems are available in mill finish for final finishing by others or can be supplied in a full range of polyester powder or anodised finishes.
When tested in accordance with the procedures laid down in BS 5368: Parts 1, 2 and 3, the product achieved the following classification for weather resistance as defined in BS 6375 Part 1: 1989.
SMR 900 has also been tested to CWCT standards.
SMR 900 is designed to accommodate various glazing options from 6mm to 10mm for single glazing and up to 28mm for double glazing. Glazing must satisfy safety recommendations and withstand the calculated design wind pressure for different types of location. All glazing must comply with BS 6262 and BS 952: Part 1.