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| Surface wettable silicone hydrogels |
| OF THE INVENTION The crosslinked polymeric network found in the hydrogels of the present invention ... |
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| High voltage insulating compositions containing phosphorus compounds |
| OF THE PREFERRED EMBODIMENTS OF THE INVENTION Preferred phosphorus compounds for use in the ... |
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| Flame retardant polyphenylene oxide thermoplastics |
| What is claimed is: 1. A flame retardant thermoplastic blend comprising by weight (A) 100 parts of ... |
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| Film and sheet capable of forming retortable and easy-open packagings |
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| Hot melt adhesive |
| What is claimed is: 1. A hot melt adhesive composition for bonding polypropylene substrates, said ... |
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| Flame retardant compositions |
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| Oil resistant thermoplastic elastomer |
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| Catalysts for the polymerization of olefins |
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Porous tubing
| Details |
Inventors: Kessler, Erich;
Assignee: Akzo N.V. (Arnhem, NL)
Primary Examiner: Anderson; Philip E.
Assistant Examiner:
Attorney, Agent or Firm: Striker; Michael J.
Method and apparatus for the production of porous tubing. One extrudes a homogeneous mixture of at least two components, one component a meltable polymer and the other component a liquid inert in relation to the polymer, both components forming a binary system which in liquid aggregate state displays a range of complete miscibility and a range with a miscibility gap, at a temperature above the separation temperature, substantially vertically upwardly using a circular slot nozzle and blowing of gas or dosing-in of liquid into the interior of the nozzle, into a bath, which displays a temperature below the separation temperature, allows the tubing to solidify, and extracts or lixiviates the tubing. Preferred embodiments include the use of water at a temperature from 15.degree. to 90.degree. C. as bath liquid; use of polypropylene as the polymer and N,N-bis-(2-hydroxyethyl)-hexadecylamine as liquid; blowing nitrogen gas into the interior of the nozzle; lixiviating with alcohol; thermally insulating the circular slot nozzle from the bath; having a non-insulated zone between the circular slot and the thermal insulation; the non-insulated zone of the nozzle having a breadth of about 0.5 to 1 mm; using thermal insulation based upon asbestos cement. The apparatus for the production of the porous tubing by extrusion of such homogeneous mixture contains a circular slot nozzle, having a circular slot and provided with means thermally insulating in relation to the bath liquid, displaying a zone without thermal insulation between said circular slot and said thermally means. |
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DETAILED DESCRIPTION I claim: 1.
Method for the production of porous tubing, comprising extruding a homogeneous mixture of at least two components, one component a thermoplastic meltable polymer and the other component a liquid inert in relation to the polymer, both components forming a binary system which in liquid aggregate state displays a range of complete miscibility and a range with a miscibility gap, at a temperature above the separation temperature, substantially vertically upwardly without horizontal expansion using a annular slot nozzle and blowing of gas or dosing-in of liquid into the interior of the nozzle, into a bath of a cooling medium, the temperature of said bath being below the separation temperature of the homogeneous mixture, allowing the tubing to solidify, and lixiviating the liquid of the tubing.
2.
Method according to claim 1, wherein said bath is water at a temperature from about 15.
degree.
to 90.
degree.
C.
3.
Method according to claim 1, wherein said polymer is polypropylene and said liquid inert in relation to said polymer is N,N-bis-(2-hydroxyethyl)-hexadecylamine.
4.
Method according to claim 1, wherein nitrogen gas is blown into the interior of the nozzle.
5.
Method according to claim 1, wherein said lixiviating is performed with alcohol.
6.
Method according to claim 1, wherein said circular slot nozzle is thermally insulated from said bath by thermal insulating means.
7.
Method according to claim 6, wherein said circular slot nozzle has a non-insulated section between the circular slot and the thermal insulating means.
8.
Method according to claim 7, wherein said non-insulated section of said nozzle has a breadth of about 0.
5 to 1 mm.
9.
Method according to claim 6, wherein said thermal insulating means of said circular slot nozzle is based upon asbestos cement.
10.
Method according to claim 1, wherein said liquid inert in relation to said polymer amounts to between about 50 and 90% by weight of said homogeneous mixture.
11.
Method according to claim 1, wherein dimensions of said nozzle are so selected that said porous tubing is produced with a wall thickness between about 0
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Adhesives and Rubbers 
