Abstract: An inorganic binder composition is employed in combination with fillers comprising particulates, fibers, filaments or yarn to form a structure. The coating is prepared from colloidal silica, monoaluminum phosphate, aluminum chlorohydrate an organo tin catalyst and optionally a refractory material.

Abstract: The heat and flame resistance of foamed plastics is increased by coating the foamed plastic with an inorganic binder composition of colloidal silica, monoaluminum phosphate and aluminum chlorohydrate. The inorganic binder compositions may optionally contain an alkyl tin halide catalyst, a water soluble organic resin, an elastomer or additional inorganic additives. The inorganic binder composition may be employed in combination with dissimilar binders.

Abstract: A coating (1) an inorganic binder of colloidal silica, monoaluminum phosphate, aluminum chlorohydrate and a catalyst of an alkyl tin halide; (2) an organic binder, and (3) metallic flakes when applied to a base fabric, such as fiberglass, provide a molten metal resistant composition.

Abstract: An inorganic binder usefully employed in providing refractory coatings on fabric substrates is prepared from colloidal silica, monoaluminum phosphate, aluminum chlorohydrate and a catalyst of an alkyl tin halide.

Abstract: An inorganic binder usefully employed in providing refractory coatings on fabric substrates is prepared from colloidal silica, monoaluminum phosphate, aluminum chlorohydrate and a catalyst of an alkyl tin halide.

Abstract: A flame resistant insulated electrical wire and/or cable construction formed by wrapping a wire or cable conductor with a heat resistant flexible refractory tape comprising a porous base fabric, preferably a knit fiberglass fabric that has been coated and impregnated with refractory materials. These refractory materials are bonded to both the surface and interstices of the base fabric by means of a bonding agent, such that the fabric remains flexible and retains its stretch properties. In the presence of relatively extreme temperature and heat (e.g., above 1750.degree. F.), the bonding agent will decompose without flaming, while the refractory materials will fuse into the softened surface of the knit fiberglass base fabric forming a high temperature resistant structure with ceramic qualities and insulative properties.

Abstract: A flame resistant insulated electrical wire and/or cable construction formed by wrapping a wire or cable conductor with a heat resistant flexible refractory tape comprising a porous base fabric, preferably a knit fiberglass fabric that has been coated and impregnated with refractory materials. These refractory materials are bonded to both the surface and interstices of the base fabric by means of a bonding agent, such that the fabric remains flexible and retains its stretch properties. In the presence of relatively extreme temperature and heat (e.g., above 1750.degree. F.), the bonding agent will decompose without flaming, while the refractory materials will fuse into the softened surface of the knit fiberglass base fabric forming a high temperature resistant structure with ceramic qualities and insulative properties.

Abstract: Fabric base compositions having a refractory coating on one side and a coating containing finely divided dielectric on the other side exhibit superior flame and heat resistance and superior dielectric properties.

Abstract: Fabric base compositions having a refractory coating on one side and a conductive layer coating on the other side exhibit flame and heat resistance and electrical conducting properties.

Abstract: An inorganic composition prepared from colloidal silica, monoaluminum phosphate and aluminum chlorohydrate is employed as a bonding agent to bond refractory materials to a porous base fabric, such as fiberglass, to prepare fabric compositions that are flame and heat resistant and possess dielectric properties.

Abstract: Refractory coated fabric compositions having a thickness substantially thinner than those prepared heretofore can be provided by forming the refractory coating by a plasma spraying technique.