Infusion fabric for molding large composite structures
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-005/12
B32B-005/08
B32B-005/26
B32B-005/22
D03D-015/00
출원번호
US-0971286
(2004-10-22)
등록번호
US-7358202
(2008-04-15)
발명자
/ 주소
Hartman,David R.
Dunn,Matthew W.
출원인 / 주소
OCV Intellectual Capital, LLC
대리인 / 주소
Eckert,Inger H.
인용정보
피인용 횟수 :
3인용 특허 :
18
초록▼
An infusion fabric includes a mat selected from a group consisting of continuous filament mat, direct chopped mat, direct continuous mat and combinations thereof and a woven roving or bonded reinforcement layer. The mat and woven roving reinforcement layer are stitched together. The continuous fila
An infusion fabric includes a mat selected from a group consisting of continuous filament mat, direct chopped mat, direct continuous mat and combinations thereof and a woven roving or bonded reinforcement layer. The mat and woven roving reinforcement layer are stitched together. The continuous filament mat includes E-glass and/or ECR-glass fibers, a binder and a size.
대표청구항▼
What is claimed: 1. An infusion fabric, comprising: a mat selected from the group consisting of a continuous filament mat, a direct chopped mat, a direct continuous mat and combinations thereof; and a woven roving or bonded reinforcement layer, said woven roving or bonded reinforcement layer includ
What is claimed: 1. An infusion fabric, comprising: a mat selected from the group consisting of a continuous filament mat, a direct chopped mat, a direct continuous mat and combinations thereof; and a woven roving or bonded reinforcement layer, said woven roving or bonded reinforcement layer including multiple parallel tows; wherein at least two of said tows of have differing yields so as to form spaced channels. 2. The infusion fabric of claim 1, wherein said mat and said woven roving or bonded reinforcement layer are stitched together. 3. The infusion fabric of claim 1, wherein said mat is constructed from a material selected from a group consisting of glass fibers, carbon fibers, graphite fibers, vitreous carbon fibers, non-graphite carbon fibers, boron monolithic graphite fibers, boron monolithic non-graphite carbon fibers, silicone, aramid, ceramic fibers, thermoplastic polymer fibers, natural fibers and mixtures thereof. 4. The infusion fabric of claim 1, wherein said woven roving or bonded reinforcement layer is constructed from a material selected from a group consisting of glass fibers, carbon fibers, graphite fibers, vitreous carbon fibers, non-graphite carbon fibers, boron monolithic graphite fibers, boron monolithic non-graphite carbon fibers, silicone, aramid, ceramic fibers, thermoplastic polymer fibers, natural fibers and mixtures thereof. 5. The infusion fabric of claim 4, wherein said woven roving or bonded reinforcement layer has an areal weight of between about 8 to about 60 ounces per square yard. 6. The infusion fabric of claim 5, wherein said woven roving or bonded reinforcement layer is selected from a group consisting of plain, twill and satin style. 7. The infusion fabric of claim 1, wherein a first tow of said two tows has a yield A of between about 750 to about 2500 yards/pound and a second tow of said two tows has a yield B of between about 52 to about 450 yards/pound. 8. The infusion fabric of claim 1, further including a surfacing mat. 9. The infusion fabric of claim 8, wherein said mat is sandwiched between said surfacing mat and said woven roving or bonded reinforcement layer. 10. The infusion fabric of claim 1, wherein said continuous filament mat includes glass fibers selected from a group consisting of E-glass fibers, ECR-glass fibers and mixtures thereof, a binder and a size. 11. The infusion fabric of claim 10, including between about 80 and about 99 weight percent glass fibers, between about 1 and about 20 weight percent binder and between about 0.01 and about 2 weight percent size. 12. The infusion fabric of claim 11, wherein said glass fibers are provided as glass filament bundles. 13. The infusion fabric of claim 12, wherein said glass filament bundles include between about 20 and about 140 glass filaments per bundle. 14. The infusion fabric of claim 13, wherein said glass filaments of said glass filament bundles have a mean diameter of between about 11 and about 20 microns. 15. The infusion fabric of claim 14, wherein said glass filament bundles have a mean diameter of about 0.3048 mm and a diameter range of between about 0.127 and about 1.27 mm. 16. The infusion fabric of claim 11, wherein said binder is selected from a group of materials consisting of a polyester and an epoxy compatible binder. 17. The infusion fabric of claim 16, wherein said polyester binder is ground to a particle size of between about 25 to about 200 mm. 18. The infusion fabric of claim 17, wherein said binder also includes talc. 19. The infusion fabric of claim 17, wherein said binder also includes benzoyl peroxide. 20. The infusion fabric of claim 17, wherein said binder includes: between about 95 and about 99.8 weight percent polyester; between about 0.05 and about 3 weight percent talc; and between about 0.2 and about 2 weight percent benzoyl peroxide. 21. The infusion fabric of claim 10, wherein said continuous filament mat has a loop formation ratio of between about 2.0 to about 8.0 and a cure of between about 50 and about 100 percent when measured as acetone extractables. 22. An infusion fabric, comprising: a continuous filament mat; a first woven roving or bonded reinforcement layer including multiple parallel tows extending in a first direction; and a second woven roving or bonded reinforcement layer including multiple parallel tows extending in a second direction at a bias to said first direction; wherein at least two tows of said multiple parallel tows of one of said first woven roving or bonded reinforcement layer and said second woven roving or bonded reinforcement layer have differing yields so as to form spaced channels. 23. The infusion fabric of claim 22, wherein said mat and said first and second woven rovings or bonded reinforcement layers are stitched together. 24. The infusion fabric of claim 22, wherein said mat is constructed from a material selected from a group consisting of glass fibers, carbon fibers, graphite fibers, vitreous carbon fibers, non-graphite carbon fibers, boron monolithic graphite fibers, boron monolithic non-graphite carbon fibers, silicone, aramid, ceramic fibers, thermoplastic polymer fibers, natural fibers and mixtures thereof. 25. The infusion fabric of claim 22, wherein said first and second woven rovings or bonded reinforcement layers are constructed from a material selected from a group consisting of glass fibers, carbon fibers, graphite fibers, vitreous carbon fibers, non-graphite carbon fibers, boron monolithic graphite fibers, boron monolithic non-graphite carbon fibers, silicone, aramid, ceramic fibers, thermoplastic polymer fibers, natural fibers and mixtures thereof. 26. The infusion fabric of claim 25, wherein said first and second woven rovings or bonded reinforcement layers have an areal weight of between about 8 to about 60 ounces per square yard. 27. The infusion fabric of claim 26, wherein said first and second woven rovings or bonded reinforcement layers are selected from a group consisting of plain, twill and satin style. 28. The infusion fabric of claim 22, wherein at least two tows of said multiple parallel tows of said first woven roving or bonded reinforcement layer have differing yields so as to form spaced channels. 29. The infusion fabric of claim 22, wherein a first tow of said two tows of said first woven roving or bonded reinforcement layer has a yield A of between about 750 to about 2500 yards/pound and a second tow of said two tows of said first woven roving or bonded reinforcement layer has a yield B of between about 52 to about 450 yards/pound. 30. The infusion fabric of claim 22, further including a surfacing mat. 31. The infusion fabric of claim 30, wherein said mat is sandwiched between said surfacing mat and said first woven roving or bonded reinforcement layer. 32. The infusion fabric of claim 22, wherein said continuous filament mat includes glass fibers selected from a group consisting of E-glass fibers, ECR-glass fibers and mixtures thereof, a binder and a size. 33. The infusion fabric of claim 32, including between about 90 and about 98 weight percent glass fibers, between about 2 and about 10 weight percent binder and between about 0.1 and about 1 weight percent size. 34. The infusion fabric of claim 33, wherein said glass fibers are provided as glass filament bundles. 35. The infusion fabric of claim 34, wherein said glass filament bundles include between about 20 and about 140 glass filaments per bundle. 36. The infusion fabric of claim 35, wherein said glass filaments of said glass filament bundles have a mean diameter of between about 11 and about 20 microns. 37. The infusion fabric of claim 36, wherein said glass filament bundles have a mean diameter of about 0.3048 mm and a diameter range of between about 0.127 and about 1.27 mm. 38. The infusion fabric of claim 33, wherein said binder is a polyester. 39. The infusion fabric of claim 38, wherein said polyester binder is ground to a particle size of between about 25 to about 200 mm. 40. The infusion fabric of claim 39, wherein said binder also includes talc. 41. The infusion fabric of claim 39, wherein said binder also includes benzoyl peroxide. 42. The infusion fabric of claim 39, wherein said binder includes: between about 95 and about 99.8 weight percent polyester; between about 0.05 and about 3 weight percent talc; and between about 0.2 and about 2 weight percent benzoyl peroxide. 43. The infusion fabric of claim 32, wherein said continuous filament mat has a loop formation ratio of between about 2.0 to about 8.0 and a cure of between about 50 and about 100 percent when measured as acetone extractables. 44. The infusion fabric of claim 22, wherein said at least two tows of said multiple parallel tows of said second woven roving or bonded reinforcement layer have differing yields so as to form spaced channels. 45. The infusion fabric of claim 44, wherein a first tow of said two tows of said second woven roving or bonded reinforcement layer has a yield between about 750 to about 2500 yards/pound and a second tow of said two tows of said second woven roving or bonded reinforcement layer has a yield between about 52 to about 450 yards/pound. 46. The infusion fabric of claim 22, wherein said second woven roving or bonded reinforcement layer is constructed from a material selected from a group consisting of glass fibers, carbon fibers, graphite fibers, vitreous carbon fibers, non-graphite carbon fibers, boron monolithic graphite fibers, boron monolithic non-graphite carbon fibers, silicone, aramid, ceramic fibers, thermoplastic polymer fibers, natural fibers and mixtures thereof. 47. The infusion fabric of claim 22, wherein said bias is approximately 90 degrees. 48. An infusion fabric comprising: a mat selected from the group consisting of a continuous filament mat, a direct chopped mat, a direct continuous mat and combinations thereof; a first woven roving or bonded reinforcement layer, said first woven roving or bonded reinforcement layer including multiple parallel tows in a first direction; a second woven roving or bonded reinforcement layer, said second woven roving or bonded reinforcement layer including multiple parallel tows in a second direction at a bias to said first direction; and wherein at least two tows of said first woven roving or bonded reinforcement layer and said second woven roving or bonded reinforcement layer have differing yields so as to form spaced channels. 49. The infusion fabric of claim 48, wherein a first tow of said two tows of said first woven roving or bonded reinforcement layer has a yield of between about 750 to about 2500 yards/pound and a second tow of said two tows of said first woven roving or bonded reinforcement fibers has a yield of between about 52 to about 450 yards/pound. 50. The infusion fabric of claim 48, wherein a first tow of said two tows of said second woven roving or bonded reinforcement layer has a yield of between about 750 to about 2500 yards/pound and a second tow of said two tows of said second woven roving or bonded reinforcement fibers has a yield of between about 52 to about 450 yards/pound. 51. The infusion fabric of claim 48, further including a surfacing mat. 52. The infusion fabric of claim 51, wherein said mat is sandwiched between said surfacing mat and said first woven roving or bonded reinforcement layer. 53. The infusion fabric of claim 48, wherein said first and second woven roving or bonded reinforcement layer has an areal weight of between about 8 to about 60 ounces per square yard. 54. The infusion fabric of claim 53, wherein said first and second woven rovings or bonded reinforcement layers are selected from the group consisting of plain, twill and satin style.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (18)
Murphy Guy C. (Fairfield OH) Jones Jackie D. (Fairfield OH) Salemme Charles T. (Madeira OH), Composite article.
Bolen Gerhard N. (Granville OH) Dunbar Sidney C. (Granville OH) Smock George E. (Heath OH), Fibrous bodies and method and apparatus for producing same.
Mulder Roger E.,NLX ; Peterson Charles W.,NLX ; Dittmar Harri,DEX, Glass fiber mats, laminates reinforced with the same and methods for making the same.
Beer Kenneth D. ; Cross Christopher G. ; Thimons Thomas V. ; Unites Thomas P., Glass fiber mats, thermosetting composites reinforced with the same and methods for making the same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.