A film structure having a matte film surface and method of manufacture thereof. The preferred embodiment of the present invention contemplates a blend of polyethylene homopolymer or copolymer resins, coupled with one or more platelet shaped (non-spherical) inorganic or organic fillers. The matte polyethylene film surface as prepared from these polymer/filler blends exhibits a low gloss matte surface for wide utility in laminated and non-laminated, food and non-food, packaging and non-packaging applications. A unique and heretofore uncontemplated technique of manufacture exploiting the phenomenon of die swell as enumerated herein is utilized during production to facilitate the reorientation of the fillers during the extrusion process to produce the matte surface effect.

The present invention relates to a process for the production of a structured grain on the surface of a thermoplastic having continuous-fiber reinforcement by a textile sheet, where a mixture of at least one fiber material and of at least one thermoplastic is heated and pressed in a mold to a temperature above the softening point of the thermoplastic, where a structured grain has been applied on the internal side of the mold. The at least one fiber material comprises continuous fibers and takes the form of a regularly arranged textile sheet. The textile sheet and the structured grain on the internal side of the mold are oriented in relation to one another in a manner such that during the pressing procedure the textile sheet and the structured grain on the internal side of the mold are mutually superposed. After the pressing procedure, the mixture of the at least one fiber material and the at least one thermoplastic in the mold is cooled to a temperature below the softening point of the thermoplastic, with formation of the structured grain on the surface of the thermoplastic. The present invention further relates to a thermoplastic which has continuous-fiber reinforcement by a textile sheet and has a structured grain on the surface, and is obtained by the process of the invention.

A method for improving the impact resistance of an extrusion blow molded article by extrusion blow molding an ultra-high IV polymer resin having an IV of at least 0.9 dL/g, wherein the extrusion blow molding is carried out in a mold with a texturized base surface such that a base surface of the extrusion blow molded article is textured.

An inner tube includes a tubular body made of a first resin and a reinforcing member disposed on an inner side of the tubular body. The reinforcing member is configured of a linear body including a second resin. The inner tube has a first region including a distal portion provided with a distal opening portion and a second region that is disposed to be closer to a proximal side than the first region. The linear body projects inwardly from the inner surface of the tubular body in the first and second regions, and inwardly projects less in the first region than in the second region. In a balloon catheter, guide wire operability is improved and problems which can arise when using a metal reinforcing member are avoided. In a medical elongated body, sliding resistance of a medical device inserted in a lumen can be reduced.

Disclosed are various embodiments of moldable hand grips for firearms. According to various embodiments, a hand grip can include a non-moldable frame and a heat-moldable grip portion disposed on the frame. The hand grip can be submerged at least partially in a water bath heated to a temperature between about 150 F. to about 212 F., resulting in the heat-moldable grip portion of the hand grip transitioning to a moldable state. After the heat-moldable grip portion of the hand grip transitions to the moldable state, the hand grip can be removed from the water bath, and the user can grab the hand grip to mold the heat-moldable grip portion to conform to his or her individual hand shape. The heat-moldable grip portion can then cool and return to a non-moldable state, resulting in a hand grip that conforms to the individual user's hand shape.

An article of footwear including a sole system, including an upper and the sole system. The sole system includes a knitted component incorporating a one-piece knit outsole. The knit outsole has a ground-facing side, a top side, an inlaid tensile element, and a ground-engaging cleat member protruding from the ground-facing side of the knit outsole. The tensile element may be adjacent a cleat member. The upper is connected at its bottom to the top side of the knit outsole.

A plastic molded product includes a plastic body provided with a plurality of holes, which are recessed in a common depth direction, on a surface of the plastic body. The holes include: an inner surface including an inlet a specific reference plane perpendicular to the depth direction and including at least a portion of the inlet and a depth reference point, which is spaced away from a center point on an inlet side of the specific reference plane toward a bottom side of the hole, the depth reference point being spaced away by a distance equal to of a maximum value of an inlet side bore diameter on the specific reference plane. A deepmost portion of the inner surface of the hole is in a position which coincides with the reference point or is deeper than the reference point toward the bottom side.

Disclosed are various embodiments of moldable hand grips for firearms. According to various embodiments, a hand grip can include a non-moldable frame and a heat-moldable grip portion disposed on the frame. The hand grip can be submerged at least partially in a water bath heated to a temperature between about 150 F. to about 212 F., resulting in the heat-moldable grip portion of the hand grip transitioning to a moldable state. After the heat-moldable grip portion of the hand grip transitions to the moldable state, the hand grip can be removed from the water bath, and the user can grab the hand grip to mold the heat-moldable grip portion to conform to his or her individual hand shape. The heat-moldable grip portion can then cool and return to a non-moldable state, resulting in a hand grip that conforms to the individual user's hand shape.

In a preferred embodiment, there is provided a method for preparing a capacitive pressure sensor, the sensor comprising a pair of conductive plate layers and a dielectric layer disposed therebetween, the dielectric layer comprising a dielectric polymer formed with a polymerization mixture fluid, wherein the method comprises placing the polymerization mixture fluid over a mold surface having a first three dimensional pattern thereon to form the dielectric polymer, thereby forming a second three dimensional pattern on a surface of the dielectric polymer complementary to the first three dimensional pattern.

A corrugated pipe includes a corrugated pipe body circumscribing a hollow conduit and including alternating ribs and valleys extending along a longitudinal axis between a first end and a second end thereof. An electrically conductive wire is embedded in the corrugated pipe body, so that the wire spans adjacent ribs and valleys and extends substantially parallel to the longitudinal axis between the first and second ends.