The disclosure features structural tiles and methods for forming such tiles, the tiles including a tile body featuring one or more polystyrene materials, and a coating featuring an epoxy resin and an aggregate material, disposed on at least one surface of the tile body, where the structural tile has a dry coefficient of kinetic friction of at least 0.75 and a wet coefficient of kinetic friction of at least 0.70, and where the dry coefficient of kinetic friction is larger than the wet coefficient of kinetic friction by 0.05 or less.

The disclosure features structural tiles and methods for forming such tiles, the tiles including a tile body featuring one or more polystyrene materials, and a coating featuring an epoxy resin and an aggregate material, disposed on at least one surface of the tile body, where the structural tile has a dry coefficient of kinetic friction of at least 0.75 and a wet coefficient of kinetic friction of at least 0.70, and where the dry coefficient of kinetic friction is larger than the wet coefficient of kinetic friction by 0.05 or less.

Screw capping devices are configured to remain tethered to a container after opening of the container. The screw capping devices include a cylindrical wall having a section having an end closed by a bottom and a section having an open end, the section being connected to the section by a circumferential junction having a non-breakable connection and a breakable connection, the section further having a breakable connection extending parallel to the circumferential junction, the breakable connection and the breakable connection being configured to be broken during a first unscrewing of the section. The breaking of the breakable connections creates two arms retaining the section to the container.

Screw capping devices are configured to remain tethered to a container after opening of the container. The screw capping devices include a cylindrical wall having a section having an end closed by a bottom and a section having an open end, the section being connected to the section by a circumferential junction having a non-breakable connection and a breakable connection, the section further having a breakable connection extending parallel to the circumferential junction, the breakable connection and the breakable connection being configured to be broken during a first unscrewing of the section. The breaking of the breakable connections creates two arms retaining the section to the container.

The closure cap for a container comprises an internal fastening skirt (16), an external skirt (18) radially surrounding said internal skirt at least partially, and a front wall (14) from which said skirts extend. The internal skirt (16) has a variable thickness in the direction of its axial length, said thickness being at a minimum at least for a proximal portion (22) of said skirt which extends from the front wall (14). The internal skirt (16) comprises the proximal portion (22) with a thickness E that is substantially constant, a distal portion (24) with a thickness E.sub.2 that is substantially constantand greater than the thickness E.sub.1, and a connecting portion (26) that connects the proximal portion and thedistal portionand has a variable thickness E.sub.3 along its length. The axial length of the proximal portion (22) of the internal skirt varies around the circumference of said skirt.

A member with threads is provided that is made of a carbon-fiber-reinforced composite material with improved strength. Carbon fibers each extending in the axial direction across at least two threads appearing in a longitudinal cross section are embedded in the at least two threads in a zigzag manner along the surface shape of the at least two threads appearing in a longitudinal cross section. Preferably, the member is a nut, where the above-described structure is embedded in the threads of the female threadform of the nut, thereby providing a nut that is lightweight and exhibits improved strength.

A spike is operable to be removably coupled to an article of footwear. The spike includes a first portion that is substantially rigid. The spike also includes a second portion that is resilient.

A spike is operable to be removably coupled to an article of footwear. The spike includes a first portion that is substantially rigid. The spike also includes a second portion that is resilient.

The invention relates to a composite element having fibers embedded in a hardened resin and an insert piece likewise embedded in the resin, which insert piece has a head and a tip. A pin is provided between the head and the tip, the pin extending along a longitudinal axis extending from the head to the tip, wherein a fastening hole is defined by the head, and/or a fastening protrusion extends from the head. A recess defined by the pin, at which recess is presented a holding surface facing the head and forming an angle with the longitudinal axis of >0 and <180.

Fastening devices are described. In one example, the fastening devices can be used for a landing string buoyancy solution. The landing string hardware includes a stop collar to be fitted and secured around a drill pipe and stop collar hardware to secure the stop collar together around the drill pipe. The stop collar can be secured at one end of a number of buoyancy modules placed along a longitudinal length of the drill pipe to hold them into place along the drill pipe. The stop collar can be formed from long fiber thermoplastic using extrusion-compression molding. The stop collar hardware includes a bolt having an external thread formed from long fiber thermoplastic and a nut having an internal thread formed from long fiber thermoplastic. Both the stop collar and the stop collar hardware are tested for suitability for the application of holding the buoyancy modules in place under operating conditions.