Extruded tubing and catheters having increased rotational stiffness
First Claim
1. In the method of manufacturing tubing by extrusion of a plastic material through a tube extrusion die having an outer wall to define the extruded tube outer diameter and an inner wall to define the extruded tube inner diameter, the improvement comprising, in combination:
- extruding a tube of liquid crystal polymer plastic-containing material through said tube extrusion die with longitudinal stretching while rotating the outer and inner walls relative to each other whereby said tube of liquid crystal polymer plastic-containing material exhibits at least a degree of circumferential orientation, in which said liquid crystal polymer plastic-containing material comprises a blended mixture of from 1 to 40 weight percent of a liquid crystal polymer and 60 to 99 weight percent of a different, structural plastic matrix, said liquid crystal polymer defining a separate phase from said structural plastic matrix, said separate phase forming generally helically extending fibrils within said extruded tube, said fibrils being dispersed in said structural plastic, whereby an increased amount of rotational stiffness is provided to at least a section of said tubing, and further in which the relative rotation rate of said outer and inner wall is varied as said tube is extruded, whereby various sections of the extruded tubing exhibit helically extending fibrils of differing angles to the longitudinal axis of said extruded tubing, and the various sections of the extruded tubing exhibit differing, predetermined rotational stiffness.
0 Assignments
0 Petitions
Accused Products
Abstract
Extruded catheters and other flexible plastic tubing may be manufactured with improved rotational and/or longitudinal stiffness, compared with catheters made of more conventional plastics. A tubing of liquid crystal polymer plastic-containing material may be extruded through a tube extrusion die while rotating the inner and outer die walls to provide circumferential shear to the extruded tube. Thus the liquid crystal polymer is oriented in a helical manner to provide improved properties, including greater rotational stiffness.
192 Citations
19 Claims
-
1. In the method of manufacturing tubing by extrusion of a plastic material through a tube extrusion die having an outer wall to define the extruded tube outer diameter and an inner wall to define the extruded tube inner diameter, the improvement comprising, in combination:
- extruding a tube of liquid crystal polymer plastic-containing material through said tube extrusion die with longitudinal stretching while rotating the outer and inner walls relative to each other whereby said tube of liquid crystal polymer plastic-containing material exhibits at least a degree of circumferential orientation, in which said liquid crystal polymer plastic-containing material comprises a blended mixture of from 1 to 40 weight percent of a liquid crystal polymer and 60 to 99 weight percent of a different, structural plastic matrix, said liquid crystal polymer defining a separate phase from said structural plastic matrix, said separate phase forming generally helically extending fibrils within said extruded tube, said fibrils being dispersed in said structural plastic, whereby an increased amount of rotational stiffness is provided to at least a section of said tubing, and further in which the relative rotation rate of said outer and inner wall is varied as said tube is extruded, whereby various sections of the extruded tubing exhibit helically extending fibrils of differing angles to the longitudinal axis of said extruded tubing, and the various sections of the extruded tubing exhibit differing, predetermined rotational stiffness.
- View Dependent Claims (2, 17, 18)
-
3. In the method of manufacturing an intravascular catheter by extrusion of a plastic material through a tube extrusion die having an outer wall to define the extruded tube outer diameter and an inner wall to define the extruded tube inner diameter, the improvement comprising, in combination:
- extruding a tube of liquid crystal polymer plastic-containing material through said tube extrusion die while rotating the outer and inner walls relative to each other, whereby said tube of liquid crystal polymer plastic-containing material exhibits at least a degree of circumferential orientation to provide a increased amount of rotational stiffness to at least a section of said tubing, and further in which the rotation rate of said outer and inner wall is varied as said tube is extruded, whereby various sections of the extruded tubing exhibit differing, predetermined rotational stiffness.
- View Dependent Claims (4, 5, 6, 7, 16)
-
8. In the method of manufacturing tubing by extrusion of a plastic material through a tube extrusion die, having an outer wall to define the extruded tube outer diameter and an inner wall to define the extruded tube inner diameter, the improvement comprising, in combination:
extruding a tube of liquid crystal polymer plastic-containing material through said tube extrusion die while rotating the outer and inner walls relative to each other, whereby said tube of liquid crystal polymer plastic-containing material exhibits at least a degree of circumferential orientation said liquid crystal polymer plastic-containing material comprising a blend mixture of from 1 to 40 weight percent of a liquid crystal polymer and 60 to 99 weight percent of a different, structural plastic matrix, said liquid crystal polymer defining a separate phase from said structural plastic matrix, said separate phase defining, after extrusion, generally helically extending fibrils within said extruded tube, said fibrils being dispersed in said structural plastic. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 19)
Specification