Disclosed herein are cannular assemblies composed of multiple concentric layers of sealing, reinforcement, sensing and monitoring components, pressure injected fluids, and over-molded structural and protection layers. An innermost sealing layer is provided with an optional overlay for improved resistance to diffusion and permeation. Either of the sealing layer or optional overlay, or both, is fabricated with permeation-resistant material. Also disclosed are related methods of manufacture.

Disclosed herein are cannular assemblies composed of multiple concentric layers of sealing, reinforcement, sensing and monitoring components, pressure injected fluids, and over-molded structural and protection layers. An innermost sealing layer is provided with an optional overlay for improved resistance to diffusion and permeation. Either of the sealing layer or optional overlay, or both, is fabricated with permeation-resistant material. Also disclosed are related methods of manufacture.

Described is a method for manufacturing coated pipe sections having a hollow conduit or an electrical cable within the coating. Also described are such pipe sections. The hollow conduit may be used to place sensors, fiber optics, or heating cable within the coating.

Described is a method for manufacturing coated pipe sections having a hollow conduit or an electrical cable within the coating. Also described are such pipe sections. The hollow conduit may be used to place sensors, fiber optics, or heating cable within the coating.

A filler pipe for suppressing swelling deformation caused by fuel, and a manufacturing method thereof. A resin filler pipe has a bellows section, including peaks and valleys, and an ordinary section, not including the bellows section, and is provided with at least inner layers, barrier layers, and outer layers. In the ordinary section, the inner layer is thinner than the outer layer, and the rate of increase in the proportion of the inner layer in the peaks of the bellows section with respect to the proportion of the inner layer in the ordinary section is equal to or less than the rate of increase in the proportion of the outer layer in the peaks of the bellows section with respect to the proportion of the outer layer in the ordinary section.

This disclosure relates generally to corrugated pipe, and more particularly to corrugated pipe with an outer wrap. In one embodiment, a pipe includes an axially extended bore defined by a corrugated outer wall having axially adjacent, outwardly-extending corrugation crests, separated by corrugation valleys. The pipe also includes an outer wrap applied to the outer wall. The outer wrap may include fibers and plastic. The outer wrap may span the corrugation crests producing a smooth outer surface.

This disclosure relates generally to corrugated pipe, and more particularly to corrugated pipe with an outer wrap. In one embodiment, a pipe includes an axially extended bore defined by a corrugated outer wall having axially adjacent, outwardly-extending corrugation crests, separated by corrugation valleys. The pipe also includes an outer wrap applied to the outer wall. The outer wrap may include fibers and plastic. The outer wrap may span the corrugation crests producing a smooth outer surface.

A tube used or medical or other purposes is concentrically bonded to an inner lining tube by sequentially inserting a core within the inner lining tube, creating an adhesive layer on the outer surface of the inner lining tube, inserting the inner lining tube and core into the lumen of the outer tube, and then activating the adhesive to bond the inner tune to the outer tube before removing the core.

A tube used or medical or other purposes is concentrically bonded to an inner lining tube by sequentially inserting a core within the inner lining tube, creating an adhesive layer on the outer surface of the inner lining tube, inserting the inner lining tube and core into the lumen of the outer tube, and then activating the adhesive to bond the inner tune to the outer tube before removing the core.

A heart valve prosthesis frame, the frame comprising a hollow tube shape for allowing blood to flow through; an upstream portion designed to expand to have at least one dimension wider than a native heart valve annulus; a downstream portion attached to the upstream portion, the downstream portion also designed to expand to have at least a portion with at least one dimension wider than the native heart valve annulus; wherein the downstream portion is shaped to have one side of the downstream portion of the hollow tube frame extend less from a center of the hollow tube than an opposite side of the hollow tube.