Alsynite understands that new zealand’s high ultra violet climate poses exceptional challenges for translucent roofing products. Utilising the latest in uv stabilised weather surface technology developed by du pont® and supported by australasia’s largest resin manufacturer, alsynite has developed a revolutionary product appropriately branded topglass ultra® which successfully overcomes degradation problems as experienced in the past. Key benefits
-topglass ultra® is manufactured from a new generation composite resin system incorporating a highly uv-stabilised inhibitor known as "uv guard" exclusive to alsynite, which is then mixed with quality glass roving materials;
-after in-house batching of the resin achieving uniformity and extreme clarity, all roofing profiles, flat sheet and accessories, are manufactured in a continuous ultra modern and computerised production line process, achieving maximum bonding and curing of the substrate;
-the extra heavy duty non-porous weather surface prevents water absorption and osmosis;
-reduced fibre show in comparison to standard commercial grade translucent roofing products;
-topglass ultra® encompasses in-built uv inhibitors which prevent early degradation, yellowing and embrittlement of the sheet;
-an extremely flexible product providing unique design criteria variations;
-new generation composite uv-stabilised resin system incorporating high quality anti-static glass fibre rovings;
-uv-stabilised non-delaminating weather surface technology;
-uv-stabilised non-delaminating carrier film.
-harmful ultra violet rays remain a major concern for today’s building designers. Only topglass opaque uv smart pigment specifically developed by alsynite, provides 100% uvb block. This innovative pigment is also available included in topglass cool.
Applications
-roof and wall lighting to all commercial, industrial, institutional and other buildings requiring long term high quality lighting;
-school/kindergarten and public outdoor areas requiring excellent uv protection;
-buildings requiring specific light and heat transmission requirements.
