Layered, and optionally dispersible fibrous structures containing fibrous elements that exhibit different physical characteristics, such as different average diameters as measured by the Average Diameter Test Method described herein, different surface characteristics, different lengths, different sources (naturally occurring versus non-naturally occurring and/or spun versus non-spun), sanitary tissue products employing such layered, dispersible fibrous structures, and methods for making same are provided.

Fibrous structures that exhibit improved surface properties, for example lower Force Variability Values as measured by the Glide on Skin Test Method described herein, compared to known fibrous structures, sanitary tissue products comprising such fibrous structures and method for making such fibrous structures are provided.

Fibrous structures that exhibit improved surface properties, for example lower Force to Drag Values as measured by the Glide on Skin Test Method described herein, compared to known fibrous structures, sanitary tissue products comprising such fibrous structures and method for making such fibrous structures are provided.

Fibrous structures that exhibit improved surface properties, for example lower Force Variability Values and lower Force to Drag Values as measured by the Glide on Skin Test Method described herein, compared to known fibrous structures, sanitary tissue products comprising such fibrous structures and method for making such fibrous structures are provided.

Layered, and optionally dispersible fibrous structures containing fibrous elements that exhibit inter-layer voids between two or more layers within the fibrous structures, sanitary tissue products employing such layered, optionally dispersible fibrous structures, and methods for making same are provided.

Provided is a decorative sheet having excellent abrasion-resistance. Also, provided is a decorative sheet capable of reducing abrasion sound. A decorative sheet is provided with; a linear irregularity pattern formed by a plurality of groove parts arranged side by side; and a protrusion pattern that coexists inside the linear irregularity pattern, is arranged at random without having any regularity with respect to the linear irregularity pattern, and is formed to have at least a height equal to or higher than a height of a protrusion part of the linear irregularity pattern. The protrusion pattern reinforces the linear irregularity pattern.

In an artificial defect material 10 of an FRP structure, a heat-resistant high-linear-expansion material 20 arranged between the layers thermally expands in case of high-temperature shaping of the FRP structure, so that a predetermined shape is shaped between a plurality of layers of the fiber reinforcing base material 14 and the material 20 thermally shrinks at the room temperature after the shaping, so that a space is formed due to the shrinkage difference from the fiber reinforcing base materials 14. The material 20 has a linear expansion coefficient larger than that of the FRP structure by a predetermined value or more, and has the shape keeping property and the heat resistance to endure the shaping temperature.

A wettable, dispersion spun fluoropolymer fiber prepared from non-melt-processible fluoropolymer particles.

A wettable, dispersion spun fluoropolymer fiber prepared from non-melt-processible fluoropolymer particles.

A fiber reinforced composite, a component for a wind turbine and a method for manufacturing a component for a wind turbine are provided. The fiber reinforced composite includes a plurality of first fibers, the first fibers being arranged in a unidirectional or biax-configuration, a plurality of second fibers, the second fibers being arranged perpendicularly with respect to a lengthwise direction of the first fibers, and a resin impregnating the first and second fibers, wherein a E-modulus of the resin equals an E-modulus of the second fibers. Since the E-modulus of the resin and the E-modulus of the second fibers are equal, an early initiation of fatigue cracks is avoided.