Low density and high strength fiber glass for ballistic applications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F41H-005/02
C08K-009/00
C08K-007/14
D03D-015/00
B32B-003/00
B32B-005/00
C03C-013/00
B29C-070/22
B29C-070/24
F41H-005/04
B29K-086/00
B29K-105/08
B29K-309/08
출원번호
US-0232614
(2011-09-14)
등록번호
US-9156728
(2015-10-13)
발명자
/ 주소
Peters, James Carl
Serrano, Juan Camilo
Li, Hong
Richards, Cheryl A.
출원인 / 주소
PPG Industries Ohio, Inc.
대리인 / 주소
Kilpatrick Townsend & Stockton LLP
인용정보
피인용 횟수 :
1인용 특허 :
18
초록▼
The present invention relates to fabrics, composites, prepregs, laminates, and other products incorporating glass fibers formed from glass compositions. The glass fibers, in some embodiments, are incorporated into composites that can be adapted for use in high energy impact applications such as ball
The present invention relates to fabrics, composites, prepregs, laminates, and other products incorporating glass fibers formed from glass compositions. The glass fibers, in some embodiments, are incorporated into composites that can be adapted for use in high energy impact applications such as ballistic or blast resistance applications. Glass fibers formed from some embodiments of the glass compositions can have certain desirable properties that can include, for example, desirable electrical properties (e.g. low Dk) or desirable mechanical properties (e.g., specific strength).
대표청구항▼
1. A composite comprising: a polydicyclopentadiene resin; anda plurality of glass fibers disposed in the polydicyclopentadiene resin, wherein at least one of the plurality of glass fibers comprises a glass composition comprising SiO260-68weight percent;B2O37-12weight percent;Al2O39-15weight percent;
1. A composite comprising: a polydicyclopentadiene resin; anda plurality of glass fibers disposed in the polydicyclopentadiene resin, wherein at least one of the plurality of glass fibers comprises a glass composition comprising SiO260-68weight percent;B2O37-12weight percent;Al2O39-15weight percent;MgO8-15weight percent;CaO0-4weight percent;Li2O0-2weight percent;Na2O0-1weight percent;K2O0-1weight percent;Fe2O30-1weight percent;F20-1weight percent;TiO20-2weight percent; andother constituents0-5weight percent total; wherein the (Li2O+Na2O+K2O) content is less than 2 weight percent, wherein the MgO content is at least twice the content of CaO on a weight percent basis, and wherein the composite is adapted for use in ballistics or blast resistance applications. 2. The composite of claim 1, wherein the composite exhibits a 0.30 cal FSP V50 value of at least about 900 fps at an areal density of about 2 lb/ft2 and a thickness of about 5-6 mm when measured by the U.S. Department of Defense Test Method Standard for V50 Ballistic Test for Armor, MIL-STD-662F, December 1997. 3. The composite of claim 1, wherein the composite exhibits a 0.50 cal FSP V50 value of at least about 1200 fps at an areal density of about 4.8-4.9 lb/ft2 and a thickness of about 13-13.5 mm when measured by the U.S. Department of Defense Test Method Standard for V50 Ballistic Test for Armor, MIL-STD-662F, December 1997. 4. The composite of claim 1, wherein the at least one of the plurality of glass fibers is at least partially coated with a sizing composition. 5. The composite of claim 1, wherein the plurality of glass fibers are arranged to form a fabric. 6. The composite of claim 5, wherein the plurality of glass fibers are woven to form the fabric. 7. The composite of claim 5, wherein the fabric comprises a plain weave fabric, a twill fabric, a crowfoot fabric, a satin weave fabric, a stitch bonded fabric, or a 3D woven fabric. 8. An armor panel comprising the composite of claim 5. 9. A composite comprising: a polydicyclopentadiene resin; anda plurality of glass fibers disposed in the polydicyclopentadiene resin, wherein at least one of the plurality of glass fibers comprises a glass composition comprising SiO260-77weight percent;B2O37-12weight percent;Al2O34.5-18.5weight percent;MgO4-12.5weight percent;CaO0-10.5weight percent;Li2O0-2weight percent;Na2O0-2weight percent;K2O0-1weight percent;Fe2O30-1weight percent;F20-2weight percent;TiO20-2weight percent; andother constituents0-5weight percent total; wherein the composite is adapted for use in ballistics or blast resistance applications, wherein the (Li2O+Na2O+K2O) content is less than 2 weight percent, and wherein the MgO content is at least twice the content of CaO on a weight percent basis. 10. The composite of claim 9, wherein the composite exhibits a 0.30 cal FSP V50 value of at least about 900 fps at an areal density of about 2 lb/ft2 and a thickness of about 5-6 mm when measured by the U.S. Department of Defense Test Method Standard for V50 Ballistic Test for Armor, MIL-STD-662F, December 1997. 11. The composite of claim 9, wherein the composite exhibits a 0.50 cal FSP V50 value of at least about 1200 fps at an areal density of about 4.8-4.9 lb/ft2 and a thickness of about 13-13.5 mm when measured by the U.S. Department of Defense Test Method Standard for V50 Ballistic Test for Armor, MIL-STD-662F, December 1997. 12. The composite of claim 9, wherein the at least one of the plurality of glass fibers is at least partially coated with a sizing composition. 13. The composite of claim 9, wherein the plurality of glass fibers are arranged to form a fabric. 14. The composite of claim 13, wherein the plurality of glass fibers are woven to form the fabric. 15. The composite of claim 13, wherein the fabric comprises a plain weave fabric, a twill fabric, a crowfoot fabric, a satin weave fabric, a stitch bonded fabric, or a 3D woven fabric. 16. An armor panel comprising the composite of claim 13. 17. The composite of claim 1, wherein the Li2O content is greater than either the Na2O content or the K2O content. 18. The composite of claim 9, wherein the Li2O content is greater than either the Na2O content or the K2O content.
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