There is provided a method of manufacturing a variable wall thickness steel pipe with a hollow tubular raw pipe. The method of manufacturing a variable wall thickness steel pipe includes locking the raw pipe in a die by thrusting a plug into the raw pipe from an one end side, so as to expand an outer shape on the one end side in a state, where the raw pipe is disposed inside the die and movement of the raw pipe in a longitudinal direction is restricted; and performing ironing in which an inner shape of the raw pipe is expanded while the outer shape is maintained so that a thin portion is formed by further thrusting the plug toward the other end side of the raw pipe while the locked state of the raw pipe is maintained, whereas the restriction on the raw pipe is relaxed.

The present invention relates to a method and tools for manufacturing of seamless tubular shapes, especially tubes and canisters. In the method of the invention the tubular shape is extracted from the flash (1) continuously produced during the plunging of a consumable rod (2) against a rigid anvil (3). The tools of the invention include a consumable rod (2); a non-consumable or consumable rigid anvil (3); first means for rotating the consumable rod (2) and the non-consumable or consumable rigid anvil (3) relatively with respect of each other; second means for plunging the consumable rod (2) and the non-consumable or consumable rigid anvil (3) relatively against each other; open die condition configuration for continuous production of flash (1) during said plunging.

The present invention relates to a method and tools for manufacturing of seamless tubular shapes, especially tubes and canisters. In the method of the invention the tubular shape is extracted from the flash (1) continuously produced during the plunging of a consumable rod (2) against a rigid anvil (3). The tools of the invention include a consumable rod (2); a non-consumable or consumable rigid anvil (3); first means for rotating the consumable rod (2) and the non-consumable or consumable rigid anvil (3) relatively with respect of each other; second means for plunging the consumable rod (2) and the non-consumable or consumable rigid anvil (3) relatively against each other; open die condition configuration for continuous production of flash (1) during said plunging.

The invention relates to tubing assemblies and methods for forming a fluidic connection to make the same. The assemblies include an outer tube having disposed therein a first inner tube affixed to the outer tube, a second inner tube and a support tube disposed in the second inner tube. The second inner tube is abutted against the first inner tube. A radial crimp is made in the outer tube over the second inner tube a distance x from where the tubes abut; the distance x being such that the end of the second inner tube seals against the end of the first inner tube. Various embodiments provide assemblies suitable for use with high fluidic pressure (e.g., greater than an about 70 MPa, approximately about 10,000 psi) and formation of chromatographic column assemblies comprising a capillary tube predisposed within the first or second inner tube prior to formation of the seal.

The invention relates to tubing assemblies and methods for forming a fluidic connection to make the same. The assemblies include an outer tube having disposed therein a first inner tube affixed to the outer tube, a second inner tube and a support tube disposed in the second inner tube. The second inner tube is abutted against the first inner tube. A radial crimp is made in the outer tube over the second inner tube a distance x from where the tubes abut; the distance x being such that the end of the second inner tube seals against the end of the first inner tube. Various embodiments provide assemblies suitable for use with high fluidic pressure (e.g., greater than an about 70 MPa, approximately about 10,000 psi) and formation of chromatographic column assemblies comprising a capillary tube predisposed within the first or second inner tube prior to formation of the seal.

The present invention seeks to enable a band-shaped metal wire member to be stably accommodated within a die. A die is prepared that includes a bottom die provided with a depression and a top die provided with a projection that can be arranged within the depression so as to close off a space above the depression. An inner surface of the depression includes a central die surface formed at a width-direction center of a base of the depression and a pair of curved guide die surfaces provided continuous with two sides of the central die surface and curved so as to project outward. The central die surface is formed as a flat surface or as a surface that curves more gently than the pair of curved guide die surfaces. A bonding process portion of a band-shaped metal wire member is folded in two and arranged within the depression.

The present invention seeks to enable a band-shaped metal wire member to be stably accommodated within a die. A die is prepared that includes a bottom die provided with a depression and a top die provided with a projection that can be arranged within the depression so as to close off a space above the depression. An inner surface of the depression includes a central die surface formed at a width-direction center of a base of the depression and a pair of curved guide die surfaces provided continuous with two sides of the central die surface and curved so as to project outward. The central die surface is formed as a flat surface or as a surface that curves more gently than the pair of curved guide die surfaces. A bonding process portion of a band-shaped metal wire member is folded in two and arranged within the depression.

An endoprosthesis includes an expandable tubular framework having a first end, a second end, and a lumen extending therethrough along a longitudinal axis. The expandable tubular framework includes a plurality of interconnected struts. The interconnected struts include a radially outward face which includes a plurality of anti-migration grooves defining anti-migration teeth formed therebetween. The anti-migration teeth are configured to engage tissue to resist migration of the endoprosthesis within a body lumen.

The disclosure relates to a tubular component for a chassis of a vehicle, wherein the tubular component may include an extruded profile made of an aluminum alloy. The extruded profile may include a rounded extruded profile base and profile walls extending from the rounded extruded profile base and facing one another, wherein the profile walls are curved towards one another to form the tubular component.

A process for the manufacture, assembly and continuous construction of tubular sections made of steel or polymer in individual pipelines with gradual movement that is designed to mechanize and automate a process substantially eliminating or mitigating existing inefficiencies and risks, considerably reducing the time vessels need to be moored at piers while paying extremely expensive daily rates, increasing the quality of welds, inspections and the entire process. The process including inside the manufactured unit one or more weld cabins and a series of support devices with synchronized driven and free wheels that carry the pipe segments while simultaneously enabling movement of the entire stalk without external interference, following the joining of several pipe segments (welded together), of variable length, in which the embodiments provided in the present invention enable each stalk to be approximately 1.2 km long or longer.