Continuous process and apparatus for manufacturing conductive polymer components
First Claim
1. A process for manufacturing conductive polymer electronic components, comprising the steps of:
- (a) controllably feeding a polymer and a conductive filler in predetermined proportions at predetermined feed rates into a compounding extruder apparatus;
(b)(1) melting the polymer and mixing and dispersing the polymer and conductive filler in the compounding extruder apparatus, and (b)(2) discharging therefrom, at a first pressure, a compounded conductive extrudate in a melted state;
(c) pumping the discharged extrudate, while still in a melted state, at a second pressure that is higher than the first pressure, into a sheet die;
(d) forming the extrudate, while still in a melted state, into a continuous polymeric web in the sheet die;
(e) laminating the continuous polymeric web between first and second conductive foil webs to form a continuous laminated web;
(f) forming the laminated web into a plurality of conductive polymer electronic components;
(g) measuring the pressure of the extrudate after it is discharged from the compounding extruder apparatus and before the pumping step, and generating a measured pressure signal having a value representative of the measured pressure;
(h) periodically comparing the value of the measured pressure signal with a set point pressure value and generating a pressure difference signal having a value representative of the difference between the value of the measured pressure signal and the set point pressure value; and
(i) using the pressure difference signal to control the feed rates of the polymer and the filler and the extrusion rate of the compounding extruder apparatus.
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Abstract
A direct extrusion process for manufacturing conductive polymer articles of manufacture employs a twin screw compounding extruder that compounds a polymeric mixture from materials received, in predetermined proportions, from gravimetric feeders, then extrudes a compounded conductive polymeric material in the melt phase. The extrudate is then fed into a gear pump that allows the extruder to discharge the compounded material, while it is still in the melt stage, at a relatively low pressure. The gear pump produces a substantially constant volumetric output of the compounded "melt phase" material at sufficiently high pressure for delivery into a sheet die. The sheet die forms the compounded material, while still in the melt phase, into a continuous web. The formed polymeric web, while at a temperature just below the melt temperature of the polymeric material, is fed into a mechanism that laminates a continuous web of conductive metal foil onto each side of the polymeric web, the foil webs being pre-heated to a temperature slightly above the melt temperature of the polymeric material. The continuous web of laminate may then be cut into measured lengths, prior to stamping or punching out the individual components. Uniformity in the conductive polymeric extrudate may be enhanced by controlling the extruder and the feeders through a feedback system using the pump inlet pressure as the control parameter. The thickness of the laminated web may be maintained within desired tolerances by closed loop feedback control of the sheet die and/or the laminating mechanism.
144 Citations
19 Claims
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1. A process for manufacturing conductive polymer electronic components, comprising the steps of:
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(a) controllably feeding a polymer and a conductive filler in predetermined proportions at predetermined feed rates into a compounding extruder apparatus; (b)(1) melting the polymer and mixing and dispersing the polymer and conductive filler in the compounding extruder apparatus, and (b)(2) discharging therefrom, at a first pressure, a compounded conductive extrudate in a melted state; (c) pumping the discharged extrudate, while still in a melted state, at a second pressure that is higher than the first pressure, into a sheet die; (d) forming the extrudate, while still in a melted state, into a continuous polymeric web in the sheet die; (e) laminating the continuous polymeric web between first and second conductive foil webs to form a continuous laminated web; (f) forming the laminated web into a plurality of conductive polymer electronic components; (g) measuring the pressure of the extrudate after it is discharged from the compounding extruder apparatus and before the pumping step, and generating a measured pressure signal having a value representative of the measured pressure; (h) periodically comparing the value of the measured pressure signal with a set point pressure value and generating a pressure difference signal having a value representative of the difference between the value of the measured pressure signal and the set point pressure value; and (i) using the pressure difference signal to control the feed rates of the polymer and the filler and the extrusion rate of the compounding extruder apparatus. - View Dependent Claims (2, 3, 11, 14, 17)
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4. A process for manufacturing conductive polymer electronic components, comprising the steps of:
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(a) providing a twin screw compounding extruder apparatus; (b) controllably feeding a polymer and a conductive filler in predetermined proportions at predetermined feed rates into the compounding extruder apparatus; (c)(1) melting the polymer and mixing and dispersing the polymer and conductive filler in the compounding extruder apparatus and (c)(2) discharging therefrom, at a first pressure, a compounded conductive extrudate in a melted state; (d) pumping the discharged extrudate, while still in a melted state, at a second pressure that is higher than the first pressure, into a sheet die; (e) forming the extrudate, while still in a melted state, into a continuous polymeric web in the sheet die; (f) laminating the continuous polymeric web between first and second conductive foil webs to form a continuous laminated web; (g) forming the laminated web into a plurality of conductive polymer electronic components; (h) measuring the pressure of the extrudate after it is discharged from the compounding extruder apparatus and before the pumping step, and generating a measured pressure signal having a value representative of the measured pressure; (i) periodically comparing the value of the measured pressure signal with a set point pressure value and generating a pressure difference signal having a value representative of the difference between the value of the measured pressure signal and the set point pressure value; and (j) using the pressure difference signal to control the feed rates of the polymer and the filler and the extrusion rate of the compounding extruder apparatus. - View Dependent Claims (5, 6, 7, 8, 9, 10, 12, 13, 15, 16, 18, 19)
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Specification