Unifrax Refractory Ceramic Bulk Fiber
Ceramic Bulk fiber is manufactured to be used as feedstock in manufacturing processes or other applications where product consistency is critical. Ceramic Bulk fiber is typically used in the manufacture of other ceramic fiber based product forms. Unifrax is a leading manufacturer of both refractory ceramic fibers and soluble fibers.
Fiberfrax® Refractory Ceramic Fiber – Fiberfrax® Refractory ceramic fibers are a family of high temperature fibers designed to be used in a variety of industrial and commercial applications. Manufactured from alumina-silica materials these fibers offer such characteristics as high temperature stability, low thermal conductivity, low heat storage, excellent thermal shock resistance, light weight, and superior corrosion resistance. Fiberfrax Refractory ceramic fibers exhibit thermal stability at temperatures up to 1260°C (2300°F).
Insulfrax® Thermal Insulation – Insulfrax® thermal insulation products are based on a calcium, magnesium, silicate chemistry which produces products capable of withstanding continuous operating temperatures up to 1100°C (2012° F). Insulfrax products are designed to have enhanced in-vitro solubility characteristics which enable Insulfrax products to meet European regulatory requirements (Directive 97/69/EC) for man-made vitreous fibers.
Isofrax® Thermal Insulation – Isofrax® thermal insulation utilizes a unique, patented silica-magnesia chemistry which produces products capable of withstanding continuous operating temperatures up to 1260°C (2300°F). Isofrax® products are designed to have enhanced in-vitro solubility characteristics which enable Isofrax® products to meet European regulatory requirements for synthetic vitreous fibers.
Saffil® Fibers – Saffil® Alumina Fibers are high-purity polycrystalline fibers designed for use in applications up to 1600°C. Since their development in the early 1970s, Saffil® Fibers have been used successfully to solve problems in demanding high-temperature insulation and many other specialty applications.