A machine for conditioning pipes made of thermoplastic material, including a station for accumulating pipes made of thermoplastic material, at which the pipes are positioned side by side and parallel to one another and with a first predetermined direction of longitudinal extension, a plurality of operational stations for conditioning respective ends of the pipes made of thermoplastic material, positioned side by side along a second predetermined direction at right angles to the first direction, these operational stations including a station for forming bells on the ends, a positioning device designed to pick up a group of pipes for transferring it from one to the other of the above-mentioned stations.

A method for manufacturing a plastic pipe including covering the teeth of a plurality of restraining segments circumferentially arranged and embedded within an annular gasket with a covering and placing the annular gasket on a mandrel with the covering arranged between the restraining segments and mandrel. The annular gasket and mandrel and are inserted into an end of a heated plastic pipe for forming a socket in the end of the plastic pipe, the socket including an annular cavity formed by the annular gasket. Upon removal of the mandrel from the socket, the covering functions to prevent acutely pointed teeth of the restraining segments from impinging upon the mandrel thereby allowing removal of the mandrel from the socket without removal of the annular gasket from the annular cavity.

The multilayer container includes a container body having a multilayer structure and a multilayer head of the container. The multilayer body of the container has at least one barrier layer connected, on one side, to at least one thermoplastic layer and heat sealed in a longitudinal overlapping joint formed of the edges of these layers. The body has its external surface covered with a polymeric coating, and the multilayer head of the container includes at least one non-metallic barrier layer connected, on one side, to at least one thermoplastic layer and is wholly extruded in the co-extrusion process. The essence of the invention is also a method for producing such a container.

The high straightness arrow in the present invention is designed to improve the straightness of the archery arrow by adopting new manufacturing technique and method. Chamber and post are made of dissimilar metals and the chamber includes a wall that creates an external housing and defines an internal airspace. Once the post with shaft is positioned through chamber, nuts are tightened securely, forming an assembly, to straighten post. Due to the different coefficients of thermal expansion of chamber and post, when they are heated simultaneously, the chamber expands more than the post, creating a natural tension along post which results in a near perfectly straight shaft. As the assembly cools, the post and chamber return to their original length, yet the shaft retains its straightened form and thus this manufacturing process yields an arrow shaft that is straighter than shafts made of the same materials but with a traditional manufacturing technique.

In a general aspect, a clamping ring for use on a pipe when making a pipe connection is configured such that when establishing the pipe connection an end of a pipe and the surrounding clamping ring are expanded simultaneously, wherein the clamping ring is made of a plastic material having memory properties such that after expanding, the clamping ring shrinks or contracts automatically, the clamping ring further comprising a chamfer on the inlet inner diameter edge of the clamping ring.

A method of making a flexible medical article or tube, for example, a sheath for a vascular access device, is provided. The method can include extruding a polymer, for example, a polycarbonate-urethane copolymer, to form a tube and annealing the extruded polymer. The method can further include cutting the extruded tube to a desired length before or after annealing, flaring one end of the annealed tube and over-molding the flared portion onto a hub, and forming the other end of the tube into a tip. A sheath formed by such a method is also provided.

A method of making a flexible medical article or tube, for example, a sheath for a vascular access device, is provided. The method can include extruding a polymer, for example, a polycarbonate-urethane copolymer, to form a tube and annealing the extruded polymer. The method can further include cutting the extruded tube to a desired length before or after annealing, flaring one end of the annealed tube and over-molding the flared portion onto a hub, and forming the other end of the tube into a tip. A sheath formed by such a method is also provided.

Described is a method for chamfering the end of a pipe (2) made from thermoplastic material, comprising the following steps: localized and circumferential heating of an axial portion (3) of the pipe (2) at a predetermined temperature; plastic deformation of the heated axial portion (3) using a tool (4) for forming a chamfer on the axial portion (3).

Described is a method for chamfering the end of a pipe (2) made from thermoplastic material, comprising the following steps: localized and circumferential heating of an axial portion (3) of the pipe (2) at a predetermined temperature; plastic deformation of the heated axial portion (3) using a tool (4) for forming a chamfer on the axial portion (3).

An object of the present invention is to provide a method of joining resin tubes, in which the degree of freedom of selecting a tube material is large, and further a defect such as stiffness and contraction at joining portions of the tubes is not developed. The method of joining resin tubes according to the present invention is a method of joining resin tubes so that a first tube is joined to a second tube, the first tube and the second tube each being made of synthetic resin, the method comprising: a surface activation step of activating each of a joining region of the first tube and a joining region of the second tube; and an adhesion step of adhering the joining region of the first tube obtained via the surface activation step with the joining region of the second tube obtained via the surface activation step to each other.