Filtering products by: Papers and Felts
Excelfrax®
Papers and Felts
Excelfrax® 550 Felt is a binder-free, wet-laid glass fibre felt offering insulating performance that is significantly improved compared to traditional fibre-based insulation products.
Fiberfrax®
Fiberfrax® Ceramic Fiber Papers are a unique class of products which consists primarily of an alumino-silicate fiber in a non-woven matrix with a latex binder system.
Fiberfrax® Felt products extend the performance of Fiberfrax papers in a product form with lower densities and increased mat thickness.
Fiberfrax® Lo-Con felt is a lightweight, flexible batting created from Fiberfrax Bulk ceramic fibers interlocked to form a strong, resilient insulation.
FyreWrap®
Fire Protection, Papers and Felts
FyreWrap® XFP® Expanding Paper is a flexible, lightweight, high-temperature intumescent mat that expands up to three times its thickness when exposed to temperatures above 620°F (325°C).
Insulfrax®
Insulfrax® Felt is manufactured from Insulfrax alkaline earth silicate wool blended with specially selected organic binders to provide flexible felts with exceptional characteristics.
Insulfrax® Paper is an evolutionary product which is manufactured by forming Insulfrax Fiber in a non-woven matrix.
Isofrax®
Isofrax® 1260C Paper is a unique product which is manufactured by forming Isofrax 1260C Fiber in a nonwoven matrix. The fibers are randomly oriented during manufacture, then held in place with a latex binder system.
QSP®
QSP™-HS1 is a thin, flexible insulation made from high temperature Fiberfrax® refractory ceramic fiber.
Saffil®
Unifrax 1600 Saffil® Paper products are manufactured from high-purity polycrystalline wool, blended with specially selected organic binders to provide a flexible paper with exceptional characteristics.
Furnace Lining Products, Papers and Felts
Saffil® Felt is lightweight, intumescent and dust free. It is supplied as a flexible sheet, which is easily cut to shape. The fibers are held in compression by an acrylic polymer binder which burns out completely at temperatures in excess of about 400°C, and an expansion in its thickness occurs.