Abstract: In the operation of a melter/mixer-gear pump system for processing of synthetic thermoplastic materials, the improvement is disclosed which comprises employing the pressure between the melter/mixer and the gear pump as the controlling parameter which affects, in a proportional relationship, the speed of the gear pump, the energy transmitted to and the consequent temperature of the materials passing through said melter/mixer.
Type:
Grant
Filed:
April 18, 1983
Date of Patent:
June 5, 1984
Assignee:
Union Carbide Corporation
Inventors:
Richard H. Handwerk, Alfred Mendelsohn, Urho S. Haapala
Abstract: Method and apparatus are disclosed for the low energy melting, extrusion and pumping of material comprising feeding, metering, melting and mixing of such materials in an extruder having a melter screw and subsequently passing the resultant extrudate, through breaker plate and adapter means, to and through a rotary gear pump and, in turn, to a die member.
Type:
Grant
Filed:
November 4, 1980
Date of Patent:
September 21, 1982
Assignee:
Union Carbide Corporation
Inventors:
David N. Jones, Archibald L Burnett, John C. Miller
Abstract: Apparatus is disclosed for dispersing a low viscosity fluid throughout a high viscosity polymer-containing mass comprising: conveying means for continuously passing a gross pre-mixture of said mass and said fluid through mixer means having a cylindrical barrel and a plurality of spaced, commonly-rotatable dispersion discs positioned therein as alternately-spaced perforated and solid rotating discs; said plurality of perforated and solid discs being arranged so that the first and last discs are perforated.
Abstract: A method is disclosed for the continuous molding of compressed bodies of thermoplastic material of uniform shape comprising feeding a thermally-softened stream of material to a rotary compression molding zone to form a sheet of interconnected compressed bodies, and disintegrating said sheet to form a plurality of compressed bodies of uniform shape.
Type:
Grant
Filed:
June 20, 1975
Date of Patent:
October 26, 1976
Assignee:
Union Carbide Corporation
Inventors:
Howard Edward Kasting, Roger Brown Staub, Ward John Klingebiel
Abstract: A process is provided for the production of a cellular thermoplastic body, wherein solid thermoplastic material is melted under pressure in an extruder, a gaseous blowing agent is injected into the molten thermoplastic material under pressure and said molten thermoplastic material and gaseous blowing agent is passed to a zone of reduced pressure to effect the cellular expansion of said thermoplastic material by said gaseous blowing agent, and wherein said gaseous blowing agent is metered at sonic velocity at a point upstream of the injection of said gaseous blowing agent into said molten thermoplastic material.
Abstract: A coaxial cable having improved mechanical and electrical properties comprising an inner conductor; an outer inert gas blown cellular ethylene or propylene polymer dielectric layer having in unexpanded form a density of about 0.86 to 0.96 grams per cubic centimeter, a melt index of about 0.05 to 10 decigrams per minute and an expanded density up to 0.6 grams per cubic centimeter, said core member having a dissipation factor value of .ltoreq. 250 microradians at an electrical transmission frequency range of from 50 to 300 mega Hertz; and an outer coaxial conductor.
Abstract: Apparatus is disclosed for molding foamed thermoplastic articles characterized by a cellular core and a substantially non-cellular integral peripheral shell comprising:A. extruder means adapted to flux a thermoplastic material;B. Disperser means connected to said extruder means for producing a dispersion of fluid blowing agent in the fluxed thermoplastic material comprising a cylindrical barrel having therein at least one ratatable disc dispersion unit with an alternating spaced series of perforated-solid rotating discs; said perforated disc, providing a high shear mixing zone, having outer edge surfaces in close rotating clearance with the inner walls of said barrel; the outer edge surface of said rotating disc being spaced from the inner walls of said barrel to form an intense shear mixing zone; and wherein said blowing agent is dispersed when passed through the apertures of said perforated disc and is intimately dispersed throughout the thermoplastic material when passed through said intense shear zone;C.