Composite flywheel rim with co-mingled fiber layers and methods for manufacturing same

US 6,824,861 B2
Filed: 09/13/2001
Issued: 11/30/2004
Est. Priority Date: 09/13/2001
Status: Expired due to Term

First Claim

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1. A composite-based rim, comprising:

a plurality of co-mingled fiber layers, wherein at least one layer is formed of at least a low modulus fiber and a high modulus fiber and at least two layers are formed entirely of high modulus fiber, the modulus of the low modulus fiber being less than the modulus of the high modulus fiber by at least 5 Msi.

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Abstract

A composite-based rim and methods for manufacturing such a rim are provided. The rim includes multiple fiber-based, co-mingled layers, wherein the strength and/or stiffness of the layers increases from the innermost layer of the rim to the outermost layer of the rim, but where the radial stress and strain generated in the rim decreases from the innermost layer to the outermost layer. Incorporation of this rim into a high stress and strain usage environment, such as a flywheel system, allows the rim to be spun at high speeds in order to generate high levels of kinetic energy while beneficially managing the amount of strain and radial stresses generated within the rim, and, in turn, minimizing or at least controlling the formation and propagation of cracks within the rim.

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15 Claims

1. A composite-based rim, comprising:
- a plurality of co-mingled fiber layers, wherein at least one layer is formed of at least a low modulus fiber and a high modulus fiber and at least two layers are formed entirely of high modulus fiber, the modulus of the low modulus fiber being less than the modulus of the high modulus fiber by at least 5 Msi.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The rim of claim 1, wherein at least one of the layers of the rim is comprised of a plurality of co-mingled fiber tows.
  - 3. The rim of claim 1, wherein the low modulus fiber has a modulus in the range of about 8 Msi to 12 Msi and the high modulus fiber has a modulus in the range of about 28 Msi to 50 Msi.
  - 4. The rim of claim 1, wherein at least two layers of the rim are formed of both the low modulus fiber and the high modulus fiber, and wherein one of these layers includes a greater volume percentage of the high modulus fiber as compared to the low modulus fiber, and one of these layers includes a greater volume percentage of the low modulus fiber as compared to the high modulus fiber.
  - 5. The rim of claim 4, wherein each of layers formed of both the low modulus fiber and the high modulus fiber is formed of at least 10% by volume of both the low modulus fiber and the high modulus fiber.
  - 6. The rim of claim 4, wherein at least three layers of the rim are formed of both the low modulus fiber and the high modulus fiber, and wherein one of these layers includes a greater volume percentage of the high modulus fiber as compared to the low modulus fiber, and two of these layers includes a greater volume percentage of the low modulus fiber as compared to the high modulus fiber.
  - 7. The rim of claim 6, wherein each of layers formed of both the low modulus fiber and the high modulus fiber is formed of at least 10% by volume of both the low modulus fiber and the high modulus fiber.
  - 8. The rim of claim 4, wherein a plurality of the layers formed of both the low modulus fiber and the high modulus fiber are formed of at least 20% by volume of both the low modulus fiber and the high modulus fiber.

9. A composite-based rim, comprising:
- five fiber layers, wherein at least one of the strength and stiffness of each layer increases in each layer from a first, innermost layer of the rim to a fifth, outermost layer of the rim, and wherein at least three of the five layers of the rim are formed of at least 10% by volume of both a low modulus fiber and a high modulus fiber, and wherein each of the five layers of the rim is formed of at least 10% of the high modulus fiber, the modulus of the low modulus fiber being at least 5 Msi less than the modulus of the high modulus fiber.
- View Dependent Claims (10, 11, 12)
- - 10. The rim of claim 9, wherein at least one of the five layers of the rim is comprised of a plurality of co-mingled fiber tows.
  - 11. The rim of claim 9, wherein a second layer of the rim surrounds the first layer of the rim, a third layer of the rim surrounds the second layer of the rim, a fourth layer of the rim surrounds the third layer of the rim, and the fifth layer of the rim surrounds the fourth layer of the rim, and wherein the volume percentage of the low modulus fiber decreases from the first layer of the rim to the second layer of the rim, from the second layer of the rim to the third layer of the rim, and from the third layer of the rim to the fourth layer of the rim.
  - 12. The rim of claim 11, wherein the high modulus fiber has a modulus in the range of about 28 Msi to 50 Msi, and wherein the high modulus fiber included in the fifth layer of the rim has a higher modulus than the high modulus fiber included in each of the other layers of the rim.

13. A composite-based rim, comprising:
- a first, innermost layer formed of about 90% by volume of a low modulus fiber and about 10% by volume of a high modulus fiber, wherein the low modulus fiber has a modulus that is at least 5 Msi less than the modulus of the high modulus fiber;
  
  a second layer surrounding the first layer and being formed of about 80% by volume of the low modulus fiber and about 20% by volume of the high modulus fiber;
  
  a third layer surrounding the second layer and being formed of about 40% by volume of the low modulus fiber and about 20% by volume of the high modulus fiber;
  
  a fourth layer surrounding the third layer and being formed of about 0% by volume of the low modulus fiber and about 100% by volume of the high modulus fiber; and
  
  a fifth, outermost layer surrounding the fourth layer and being formed of about 0% by volume of the low modulus fiber and about 100% by volume of the high modulus fiber.
- View Dependent Claims (14, 15)
- - 14. The rim of claim 13, wherein at least one of the five layers of the rim is comprised of a plurality of co-mingled fiber tows.
  - 15. The rim of claim 14, wherein each of the five layers of the rim is comprised of a plurality of co-mingled fiber tows.

Specification

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Current Assignee
Beacon Power (RGA Labs, Inc.)
Original Assignee
Beacon Power Corporation (RGA Labs, Inc.)
Inventors
Spears, Ward R.
Primary Examiner(s)
Kelly, Cynthia
Assistant Examiner(s)
GRAY, JILL M

Application Number

US09/952,283
Publication Number

US 20030049430A1
Time in Patent Office

1,174 Days
Field of Search

428/293.1, 745/72, 242/437.3
US Class Current

428/293.1
CPC Class Codes

B32B 5/08   the fibres or filaments of ...

F16C 15/00   Construction of rotary bodi...

F16F 15/305   made of plastics, e.g. fibr...

Y10T 428/249927   Fiber embedded in a metal m...

Y10T 74/212   Containing fiber or filament

Composite flywheel rim with co-mingled fiber layers and methods for manufacturing same

First Claim

5 Assignments

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Abstract

Citations

15 Claims

Specification

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Composite flywheel rim with co-mingled fiber layers and methods for manufacturing same

First Claim

5 Assignments

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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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