Apparatus and method for preform relaxation and flow control in liquid composite molding processes

US 8,210,841 B2
Filed: 08/13/2009
Issued: 07/03/2012
Est. Priority Date: 08/13/2008
Status: Expired due to Fees

First Claim

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1. A vacuum-induced injection molding apparatus comprising:

a tool surface having an injection port extending therethrough;

a flexible film extending over a preform and sealingly coupled to the tool surface, wherein the flexible film comprises an outer surface and an inner surface such that the flexible film inner surface and the tool surface define a first volume;

a rigid vacuum chamber having a periphery sealingly coupled to a first portion of the outer surface of the flexible film, the rigid vacuum chamber defining a second volume between an interior of the vacuum chamber and the outer surface of the first portion of the flexible film within the periphery of the vacuum chamber;

at least one stiffening bar separate from the periphery of the rigid vacuum chamber, the at least one stiffening bar located outside the first volume and extending between the tool surface and an interface with the vacuum chamber, the interface between the stiffening bar and the vacuum chamber configured to permit the stiffening bar to receive at least a portion of a reaction force transmitted by the vacuum chamber when the second volume contains a relative vacuum; and

a vacuum port in fluid communication with the second volume.

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Abstract

A vacuum-induced injection molding apparatus is disclosed. The apparatus includes a tool surface having an injection port extending therethrough. A flexible film extends over and is sealingly coupled to the tool surface. The flexible film comprises an outer surface and an inner surface such that the flexible film inner surface and the tool surface define a volume. A vacuum chamber is sealingly coupled to the outer surface of the flexible film. A vacuum port is in fluid communication with the volume. A method of injection molding a polymer matrix composite is also disclosed.

Citations

15 Claims

1. A vacuum-induced injection molding apparatus comprising:
- a tool surface having an injection port extending therethrough;
  
  a flexible film extending over a preform and sealingly coupled to the tool surface, wherein the flexible film comprises an outer surface and an inner surface such that the flexible film inner surface and the tool surface define a first volume;
  
  a rigid vacuum chamber having a periphery sealingly coupled to a first portion of the outer surface of the flexible film, the rigid vacuum chamber defining a second volume between an interior of the vacuum chamber and the outer surface of the first portion of the flexible film within the periphery of the vacuum chamber;
  
  at least one stiffening bar separate from the periphery of the rigid vacuum chamber, the at least one stiffening bar located outside the first volume and extending between the tool surface and an interface with the vacuum chamber, the interface between the stiffening bar and the vacuum chamber configured to permit the stiffening bar to receive at least a portion of a reaction force transmitted by the vacuum chamber when the second volume contains a relative vacuum; and
  
  a vacuum port in fluid communication with the second volume.
- View Dependent Claims (2, 3, 4)
- - 2. The vacuum-induced injection molding apparatus according to claim 1, wherein the vacuum chamber is releasably coupled to the outer surface of the flexible film.
  - 3. The vacuum-induced injection molding apparatus according to claim 1, further comprising a resin supply coupled to the injection port.
  - 4. The vacuum-induced injection molding apparatus according to claim 1, further comprising an optional distribution media disposed between the flexible film and the tool surface.

5. A method of injection molding a polymer matrix composite comprising the steps of:
- (a) providing a tool surface having at least one injection port extending therethrough;
  
  (b) layering a plurality of fabric preforms on the tool surface;
  
  (c) extending a flexible film over the plurality of fabric preforms and sealingly coupling the flexible film to the tool surface, creating a first volume defined by the flexible film and the tool surface, with the flexible film in contact with at least a portion of the plurality of fabric preforms;
  
  (d) sealing a periphery of a rigid vacuum chamber to a portion of the flexible film in a first location proximate the injection port, wherein the rigid vacuum chamber includes a vacuum port, the rigid vacuum chamber defining a second volume between an interior of the vacuum chamber and the portion of the flexible film within the periphery of the vacuum chamber;
  
  (e) drawing a vacuum through the vacuum port, the vacuum having a magnitude in a range sufficient to relax the fabric preform layers while maintaining the contact between the portion of the plurality of fabric preforms and the flexible film;
  
  (f) receiving, with at least one stiffening bar separate from the periphery of the rigid vacuum chamber, at least a portion of a reaction force transmitted by the rigid vacuum chamber when the second volume contains a relative vacuum, the at least one stiffening bar located outside the first volume and extending between the tool surface and an interface with the vacuum chamber, and(g) injecting a polymer resin through the at least one injection port and between the plurality of fabric preforms.
- View Dependent Claims (6, 7, 8, 9, 10, 11)
- - 6. The method according to claim 5, further comprising the steps of:
    - (h) removing the vacuum;
      
      (i) unsealing the vacuum chamber from the flexible film;
      
      (j) moving the vacuum chamber to a second location; and
      
      (k) repeating steps (d)-(g).
  - 7. The method according to claim 5, further comprising the step of applying a vacuum to the first volume.
  - 8. The method according to claim 7, wherein the step of applying a vacuum to the first volume comprises drawing the polymer resin away from the injection port.
  - 9. The method according to claim 5, further comprising disposing an optional distribution media between the flexible film and the fabric preforms.
  - 10. The method according to claim 5, further comprising positioning one or more stiffening bars between an interface with the vacuum chamber and the tooling surface, the one or more stiffening bars configured to support at least a portion of a reaction force transmitted by the vacuum chamber when a vacuum is drawn through the vacuum chamber.
  - 11. The method of claim 10 further comprising maintaining the sealing relationship between the vacuum chamber periphery and the portion of the flexible film while transmitting the at least a portion of the reaction force to the one or more stiffening bars.

12. A vacuum-induced injection molding apparatus comprising:
- a tool surface having an injection port extending therethrough from an upper side to a lower side of the tool surface;
  
  a flexible film extending over a preform and sealingly coupled to the tool surface, the flexible film and the preform positioned on the upper side of the tool surface, wherein the flexible film comprises an outer surface and an inner surface such that the flexible film inner surface and the tool surface define a first volume on the upper side of the tool surface;
  
  a rigid vacuum chamber having a periphery sealingly coupled to a first portion of the outer surface of the flexible film, the rigid vacuum chamber defining a second volume between an interior of the vacuum chamber and the outer surface of the first portion of the flexible film within the periphery of the vacuum chamber;
  
  at least one stiffening bar located outside the first volume and extending between the upper side of the tool surface and an interface with the vacuum chamber, the interface between the stiffening bar and the vacuum chamber configured to permit the stiffening bar to receive at least a portion of a reaction force transmitted by the vacuum chamber when the second volume contains a relative vacuum; and
  
  a vacuum port in fluid communication with the second volume.
- View Dependent Claims (13, 14, 15)
- - 13. The vacuum-induced injection molding apparatus according to claim 12, wherein the vacuum chamber is releasably coupled to the outer surface of the flexible film.
  - 14. The vacuum-induced injection molding apparatus according to claim 12, further comprising a resin supply coupled to the injection port.
  - 15. The vacuum-induced injection molding apparatus according to claim 12, further comprising an optional distribution media disposed between the flexible film and the tool surface.

Specification

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Litigation Campaign Assessment

Current Assignee
University of Delaware
Original Assignee
University of Delaware
Inventors
Alms, Justin B., Glancey, James L., Advani, Suresh G.
Primary Examiner(s)
Gupta, Yogendra
Assistant Examiner(s)
ABRAHAM, AMJAD A

Application Number

US12/541,004
Publication Number

US 20100072677A1
Time in Patent Office

1,055 Days
Field of Search

264/258, 264/511, 425/504, 425/546
US Class Current

425/504
CPC Class Codes

B29C 70/443 and impregnating by vacuum ...

Apparatus and method for preform relaxation and flow control in liquid composite molding processes

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

Citations

15 Claims

Specification

Solutions

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Apparatus and method for preform relaxation and flow control in liquid composite molding processes

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

15 Claims

Specification

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Solutions

Use Cases

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