A method for thermally protecting a part according to which a protective screen is placed in an in-use position in which the screen physically isolates at least one portion of the part from a heat source. The heat source is configured to bring the temperature of the at least one portion of the part to a temperature between 400° C. and 900° C. in the absence of the protective screen. The protective screen includes a substrate of glass strands at least partially coated with a coating that includes protective particles of a crystalline material that have a melting point above 1000° C. and is composed of one or more oxides in an amount of more than 95 wt. %. The coating covers more than 50% of the outer surfaces of more than 50% of the number of strands of the substrate.

Embodiments generally relate to devices and methods for production of fibers and threads for use in electronic device manufacturing. Described here, fibers can be produced and manipulated using a dual-surfaced sizing material. The dual-surfaced sizing material has a surface which binds a fiber and a surface which binds a resin. Thus, the dual-surfaced sizing material can be left attached to the fibers without adversely affecting the resin binding in later production steps.

Disclosed are formaldehyde-free, thermally-curable, alkaline, aqueous binder compositions. Also disclosed are compositions comprising formaldehyde-free, thermally-curable binder compositions, as described herein, applied to non-woven fibers. Uses of the disclosed binder compositions as binders for non-woven fibers are also disclosed.

Disclosed are formaldehyde-free, thermally-curable, alkaline, aqueous binder compositions. Also disclosed are compositions comprising formaldehyde-free, thermally-curable binder compositions, as described herein, applied to non-woven fibers. Uses of the disclosed binder compositions as binders for non-woven fibers are also disclosed.

An inorganic and organic insulating polymer comprising a methyl phenyl silicone polyester with a thixotropic index from about 6 to about 9 that is effective to gel and cure very quickly so that the polyester can be applied, such as by spraying, to a pipe or other object to provide insulation and protection without sagging or deformation.

A method and a mineral wool product include a multiple of lamellae, such as a sandwich panel core. The product includes a plurality of lamellae cut from a mineral wool web, and bonded together by applying an adhesive on the surfaces of two adjacent lamellae to form a web-like product, wherein the adhesive comprises at least one hydrocolloid.

The invention relates to an aqueous coating composition, comprising: a) an aqueous polymer dispersion with said polymer containing monomeric units of at least one dicarboxylic acid monomer, bearing two carboxylic acid functional groups and said polymer remaining insoluble in water after neutralization and remaining in the form of dispersed polymeric particles having a mean particle size varying from 10 to 1000 nm, b) a crosslinker selected from aminoacids bearing at least two amino functional groups capable of reacting with said carboxylic functional groups. It also relates to its use in the treatment of flexible fibrous substrates, a method for and the coated or treated fibrous substrate.

The invention relates to an aqueous coating composition, comprising: a) an aqueous polymer dispersion with said polymer containing monomeric units of at least one dicarboxylic acid monomer, bearing two carboxylic acid functional groups and said polymer remaining insoluble in water after neutralization and remaining in the form of dispersed polymeric particles having a mean particle size varying from 10 to 1000 nm, b) a crosslinker selected from aminoacids bearing at least two amino functional groups capable of reacting with said carboxylic functional groups. It also relates to its use in the treatment of flexible fibrous substrates, a method for and the coated or treated fibrous substrate.

A process for manufacturing a mat of mineral fibers, wherein fibers are formed and a binding compound resulting from the mixture of a binder composition with dilution water is applied on the fibers, the fibers impregnated with the binding compound are collected on a perforated receiving device equipped with a fiber-receiving surface and, below the surface, at least one suction duct, and the mat is heat treated. The process includes determining an optimal amount of dilution water as a function of the humidity of the air in the fiberizing station, of the humidity of the intake air and of the intake air flow rate in the at least one suction duct, and of the desired amount of water in the mat at the outlet of the receiving chamber, and adjusting the amount of dilution water as a function of the optimal amount thus determined.

A process for manufacturing a mat of mineral fibers, wherein fibers are formed and a binding compound resulting from the mixture of a binder composition with dilution water is applied on the fibers, the fibers impregnated with the binding compound are collected on a perforated receiving device equipped with a fiber-receiving surface and, below the surface, at least one suction duct, and the mat is heat treated. The process includes determining an optimal amount of dilution water as a function of the humidity of the air in the fiberizing station, of the humidity of the intake air and of the intake air flow rate in the at least one suction duct, and of the desired amount of water in the mat at the outlet of the receiving chamber, and adjusting the amount of dilution water as a function of the optimal amount thus determined.