A metal reinforcement band is embedded around the inlets and outlets of a valve to help prevent cracking the plastic bodies of the inlets and outlets. This metal band is embedded in between an outer diameter and a threaded inner diameter of the inlets and the outlets of a valve by an injection molding process.

A pipe structure has an outer layer of a skin material with a first thickness and which defines an outside diameter of the pipe structure. The pipe structure has an inner layer of a skin material with a second thickness and which defines an inside diameter of the pipe structure. The pipe structure has a core layer of a foam material disposed between the inner and outer layers and having a third thickness. The inner, outer, and core layers are formed such that the pipe structure has a tube shape in cross-section. The first, second, and third thicknesses, respectively, combine to define a wall thickness of the pipe structure. The pipe structure has improved cold impact performance according to the ratio of the thicknesses of the inner and outer layers relative to the core layer.

A reinforced structural component includes a body portion made of a combination of plastic material and chopped fibers. The body portion has a central longitudinal axis and a cross-section orthogonal to the central longitudinal axis, with the cross-section having an outer periphery and an inner core inward of the outer periphery. The body portion has an outer peripheral portion and an inner core portion corresponding to respective longitudinal projections of the outer periphery and inner core. The body portion is configured for being acted upon by a combination of forces causing tension within one or more longitudinal segments of the inner core portion. The reinforced structural component also includes one or more layers of continuous fiber disposed longitudinally within the one or more longitudinal segments, so as to resist tension caused within the one or more longitudinal segments.

The present disclosure provides a fuel pipe having a double tube with an inner tube and an outer tube disposed on the outside of the inner tube.

Provided is a thermoplastic resin composition for refrigerant transporting piping having high barrier properties, flexibility, and good extrusion processability. The thermoplastic resin composition for refrigerant transporting piping is composed of: a matrix containing a thermoplastic resin; and a domain containing a rubber dispersed in the matrix, and is characterized in that the thermoplastic resin has a melting point of 150° C. or higher, the rubber is a butyl-based rubber or an olefin-based rubber, the matrix contains a viscosity stabilizer, the thermoplastic resin composition contains a processing aid and at least one selected from the group consisting of a phenylenediamine-based anti-aging agent, a quinoline-based anti-aging agent, and a trihydric alcohol having a triazine skeleton, and at least a portion of the rubber is crosslinked.

The present disclosure discloses a PEX-A pipe, the pipe wall of the PEX-A pipe includes a PEX-A antibacterial layer, a PEX-A main body layer, and an anti-ultraviolet (UV) layer that are sequentially attached from inside to outside. The anti-UV layer is attached to the outer side of the PEX-A main body layer to enhance the weather resistance and aging resistance and prolong the service life of the pipe. The PEX-A antibacterial layer is attached to the inner side of the PEX-A main body layer to inhibit the growth and reproduction of bacteria in water in the pipe and improve the quality of drinking water.

Provided is piping for ultra-pure water from which the amount of calcium leaching can be suppressed to an extent that satisfies the quality required for ultra-pure water, and which can be produced so as to be provided with mechanical properties.

[Solution] This piping for ultra-pure water is used for conveying ultra-pure water and includes a first polyolefin-based resin layer constituting the innermost layer, and a second polyolefin-based resin layer disposed on the outer side of the first polyolefin-based resin layer, wherein the calcium concentration within the first polyolefin-based resin layer is 10 ppm or lower, and the calcium concentration within the second polyolefin-based resin layer is between 20 ppm and 200 ppm inclusive. With this constitution, the amount of calcium leaching can be suppressed to an extent that satisfies the quality required for ultra-pure water, and the piping can be produced so as to be provided with mechanical properties.

A composite tube includes a first layer including a thermoplastic polymer having a Tg of not greater than about 160° C. and a second layer adjacent to the first layer, the second layer including an extruded silicone material. Further included is a method of forming the composite tube which includes providing a first layer including a thermoplastic polymer having a Tg of not greater than about 160° C.; receiving, by an extrusion system, a silicone material; forming, by the extrusion system, a second layer including the silicone material adjacent to the first layer; and irradiating the silicone material with a radiation source to substantially cure the silicone material.

An insulated conduit for use in offshore, deep water environments includes a pipe and a fluoropolymer composition. The pipe has an outer surface with the fluoropolymer composition disposed about the outer surface of the pipe for providing a thermal insulation layer. The fluoropolymer composition includes a fluoroplastic polymer present in an amount of at least 50 parts by weight based on 100 parts by weight of the fluoropolymer composition. The fluoropolymer composition also includes a fluoroelastomer present in an amount of a fluoroelastomer present in an amount of from about 20 to about 50 parts by weight based on 100 parts by weight of the fluoropolymer composition. The fluoropolymer composition has a thermal conductivity less than about 0.20 W/mK at 205° C.

The present disclosure relates to a fibre reinforced polymer (FRP) tube, the tube comprising a plurality of concentric layers of an FRP material forming a shell of the tube. At least one blind threaded longitudinal bolt hole is provided from a transverse end surface of the shell. The bolt hole extends in at least three of the plurality of layers, a middle layer encompassing a plane passing through a center of the bolt hole, an inner layer encompassing a plane of an innermost extent of the bolt hole, and an outer layer encompassing a plane of an outermost extent of the bolt hole. The fibre filament of each of the inner and outer layers has been wound at a first angle to the longitudinal axis and the fibre filament of the middle layer has been wound at a second angle to the longitudinal axis.