Articles, such as sanitary tissue products, including fibrous structures, and more particularly articles including fibrous structures having a plurality of fibrous elements wherein the article exhibits differential cellulose content throughout the thickness of the article and methods for making same are provided.

The present invention relates to a method for producing a recycled insulating material from insulating wool, said method comprising the steps of: comminuting insulating wool to give a first intermediate comprising fibre balls; adding binder to the first intermediate to give a second intermediate; hot-pressing the second intermediate into the desired shape, to give a third intermediate; and curing the third intermediate to give the recycled insulating material. The present invention further relates to a method for recycling insulating wool, an apparatus for processing insulating wool, and a fibre-reinforced foam. The invention additionally embraces a fire-resistant wood-based material and a method for producing it.

A web structural body includes cellulose fibers and a binding material binding the cellulose fibers, and in the web structural body described above, a molten rate of the binding material at a surface of the web structural body is higher than a molten rate of the binding material at a center in a thickness direction of the web structural body.

A web structural body includes cellulose fibers and a binding material binding the cellulose fibers, and in the web structural body described above, a molten rate of the binding material at a surface of the web structural body is higher than a molten rate of the binding material at a center in a thickness direction of the web structural body.

Articles, such as sanitary tissue products, comprising fibrous structures, and more particularly articles comprising fibrous structures comprising a plurality of fibrous elements wherein the articles exhibit improved consumer relevant properties, for example improved bulk and absorbent properties, compared to known articles and methods for making same are provided.

Articles, such as sanitary tissue products, comprising fibrous structures, and more particularly articles comprising fibrous structures comprising a plurality of fibrous elements wherein the articles exhibit improved consumer relevant properties, for example improved bulk and absorbent properties, compared to known articles and methods for making same are provided.

Articles, such as sanitary tissue products, including fibrous structures, and more particularly articles including fibrous structures having a plurality of fibrous elements wherein the article exhibits differential cellulose content throughout the thickness of the article and methods for making same are provided.

Articles, such as sanitary tissue products, including fibrous structures, and more particularly articles including fibrous structures having a plurality of fibrous elements wherein the article exhibits differential cellulose content throughout the thickness of the article and methods for making same are provided.

A medical protective clothing fabric includes a Teflon fabric and a petrochemical synthetic filament fabric bonded to the Teflon fabric, where the Teflon fabric and petrochemical synthetic filament fabric are heated and bonded together with high frequency and high pressure, and the fabric hole density of the Teflon fabric is 0.05 μm to 0.1 μm. Whereby, the infectious substances can be prevented from penetrating through the Teflon fabric, and since the Teflon fabric has high temperature resistance, it is not easy to melt, deform or break in a high temperature environment. With the bonding processed with high frequency and high pressure, the processing is simple, the processing cost is significantly reduced, pinholes can further be prevented from being produced, and infectious substance is prevented from penetrating through pinholes. Furthermore, the petrochemical synthetic filament fabric improving wearing comfort allows the medical protective clothing fabric to be waterproof and air permeable.

A medical protective clothing fabric includes a Teflon fabric and a petrochemical synthetic filament fabric bonded to the Teflon fabric, where the Teflon fabric and petrochemical synthetic filament fabric are heated and bonded together with high frequency and high pressure, and the fabric hole density of the Teflon fabric is 0.05 μm to 0.1 μm. Whereby, the infectious substances can be prevented from penetrating through the Teflon fabric, and since the Teflon fabric has high temperature resistance, it is not easy to melt, deform or break in a high temperature environment. With the bonding processed with high frequency and high pressure, the processing is simple, the processing cost is significantly reduced, pinholes can further be prevented from being produced, and infectious substance is prevented from penetrating through pinholes. Furthermore, the petrochemical synthetic filament fabric improving wearing comfort allows the medical protective clothing fabric to be waterproof and air permeable.