Claims
- 1. An optical glass fiber ribbon assembly having the functional capability of providing mid-span access to individual coated optical glass fibers, said ribbon assembly comprising:
- a plurality of coated optical glass fibers; and
- a matrix material which binds said plurality of coated optical glass fibers together, wherein at least one of said coated optical glass fibers contains an ink coating or colored outer primary coating formulated from a radiation-curable composition comprising:
- an adhesion adjusting oligomer having at least one radiation-curable functional group bound to a low surface energy backbone and being substantially free-of silicone and fluorine, said adhesion adjusting oligomer being present in an amount which reduces the surface energy of said ink coating or said colored outer primary coating to a level that provides less adhesion between said ink coating or said colored outer primary coating and said matrix material than between said ink coating or said colored primary coating and a coating on said optical glass fiber adjacent to said ink coating or said colored outer primary coating.
- 2. A ribbon assembly according to claim 1, wherein said adhesion adjusting oligomer comprises at least one represented by the following formulae in which the listed components are reacted:
- P--(BHCA).sub.m --I--R (2);
- P--((BHCA).sub.m --A--(BHCA).sub.m --I).sub.n --R (3);
- and
- R--I--((BHCA).sub.m --A--(BHCA).sub.m --I).sub.n --R (4),
- wherein BHCA is a hydroxy carboxylic acid which is branched and/or which contains a non-terminal hydroxy functional group that provides a hydrocarbon side chain bound to the polyester backbone upon reaction of the hydroxy functional group to form an ester group;
- I is a polyisocyanate compound;
- A is a polyol;
- P is compound containing at least one hydroxy functional group;
- R is a hydroxy functional compound containing a radiation-curable functional group;
- n is from 1 to about 20 on average; and
- m is from 1 to about 50 on average.
- 3. A ribbon assembly according to claim 1, wherein said adhesion adjusting oligomer comprises at least one represented by the following formula in which the listed components are reacted:
- R--I--((BHCA).sub.S --A--(BHCA).sub.V --I).sub.W --R (7)
- wherein R=a hydroxy functional, radiation- curable compound:
- I=a polyisocyanate compound:
- BHCA=a hydroxy carboxylic acid which is branched and/or which contains a non-terminal hydroxy functional group that provides a carbon-containing side chain bound to the polyester backbone upon reaction of the hydroxy functional group to form an ester group;
- A=a polyol;
- W=1 to about 20 on average; and
- S+V=4 to about 20 on average.
- 4. A ribbon assembly according to a claim 3, wherein BHCA comprises poly(12-hydroxystearic acid) and A comprises a diol represented by the following formula: ##STR6## Where H=a hydrogen atom; O=an oxygen atom;
- C=is a carbon atom; and
- R.sub.11, and R.sub.12 =are each H or hydrocarbon side chains having from 1 to 12 carbon atoms, with the proviso that R.sub.11 and R.sub.12 are not both H.
- 5. A ribbon assembly according to claim 1, wherein said adhesion adjusting oligomer comprises at least one represented by the following formula in which the listed components are reacted:
- HA--I--Poly(HSA)--I--HA (8)
- wherein HA=hydroxyethyl acrylate,
- I=isophorone diisocyanate; and
- Poly(HSA) is represented by the following formula (9) ##STR7## wherein B+C=2 to about 20 on average.
- 6. A ribbon assembly according to claim 5, wherein B+C is about 5 to about 15 on average.
- 7. A ribbon assembly according to claim 1, wherein said adhesion adjusting oligomer comprises at least one represented by the following formulae in which the listed components are reacted:
- R--I--(A--(PAC--A).sub.t)--I--R (10);
- R--(PAC--A).sub.t --I--R (11);
- and
- R--(PAC--(A--PAC).sub.t)--R (12),
- wherein PAC is a polycarboxylic compound;
- I=a polyisocyanate compound;
- R=a hydroxy functional radiation-curable compound;
- A=a polyol; and
- t=1 to about 20 on average, and wherein at least one of the polycarboxylic acid or the polyol is branched to provide a polyester backbone having carbon-containing side chains, or the polyol contains a non-terminal hydroxy functional group which provides a polyester backbone having carbon-containing side chains upon reaction of the hydroxy-functional group with a carboxylic acid to form an ester functional group.
- 8. A ribbon assembly according to claim 1, wherein said ink coating has a surface energy that provides an average top contact angle of greater than 65.degree..
- 9. A ribbon assembly according to claim 1, wherein said ink coating has a surface energy that provides an average top contact angle of at least about 70.degree..
- 10. A ribbon assembly according to claim 1, wherein said ink coating has a surface energy that provides an average top contact angle of at least about 75.degree..
- 11. A ribbon assembly according to claim 1, wherein said ink coating has a surface energy that provides an average top contact angle of at least about 80.degree..
- 12. A ribbon assembly according to claim 1, wherein said adhesion adjusting oligomer comprises at least one radiation-curable functional group bound to a hydrocarbon backbone.
- 13. A ribbon assembly according to claim 1, wherein said adhesion adjusting oligomer comprises at least one radiation-curable functional group bound to a hydrocarbon backbone comprising a homopolymer or copolymer of ethylene, butylene or propylene.
- 14. A ribbon assembly according to claim 1, wherein said ink coating composition has been cured in the presence of air.
- 15. A ribbon assembly according to claim 1, wherein said ink coating composition has been cured in an inert atmosphere.
- 16. A ribbon assembly according to claim 1, wherein said adhesion adjusting oligomer is present in an amount of about 1 to about 90% by weight based on the total weight of said radiation-curable composition.
- 17. A ribbon assembly according to claim 1, wherein said adhesion adjusting oligomer has a number average molecular weight of from 1,000 to 8,000 and from 5% to 40% of the number average molecular weight of the adhesion adjusting oligomer.
- 18. A ribbon assembly according to claim 17, wherein at least 10% of the number average molecular weight of said adhesion adjusting oligomer is comprised of hydrocarbon side-chains.
- 19. A ribbon assembly according to claim 17, wherein at least 15% of the number average molecular weight of said adhesion adjusting oligomer is comprised of hydrocarbon side-chains.
- 20. A ribbon assembly according to claim 17, wherein less than 20% of the number average molecular weight of said adhesion adjusting oligomer is comprised of hydrocarbon side-chains.
- 21. A ribbon assembly according to claim 17, wherein less than 30% of the number average molecular weight of said adhesion adjusting oligomer is comprised of hydrocarbon side-chains.
- 22. A ribbon assembly according to claim 17, wherein said hydrocarbon side-chains comprise lower alkyls or alkyl substituted aryls having from 3 to 30 carbon atoms.
- 23. A ribbon assembly according to claim 17, wherein said hydrocarbon side-chains comprise lower alkyls or alkyl substituted aryls having from 5 to 20 carbon atoms.
- 24. A ribbon assembly according to claim 17, wherein said hydrocarbon side-chains are spaced out along said backbone in a comb-like structure.
- 25. A ribbon assembly according to claim 1, wherein said ink coating contains at least one release agent selected from the group consisting of silicones, silicone acrylates, fluorocarbon-oils, and fluorocarbon resins.
- 26. A ribbon assembly according to claim 1, wherein said matrix material is formulated from a matrix forming composition containing at least one adhesion adjusting oligomer.
- 27. An optical glass fiber ribbon assembly having the functional capability of providing mid-span access to individual coated optical glass fibers, said ribbon assembly comprising:
- a plurality of coated optical glass fibers; and
- a matrix material which binds said plurality of coated optical glass fibers together, wherein at least one of said coated optical glass fibers comprises:
- an optical glass fiber;
- at least one coating on said optical glass fiber;
- a colored outer primary coating on said at least one coating formulated from a composition comprising:
- an adhesion adjusting oligomer having at least one radiation-curable functional group bound to a low surface energy backbone and being substantially free-of silicone and fluorine, said adhesion adjusting oligomer being present in an amount which reduces the surface energy of said colored outer primary coating to a level that provides less adhesion between said colored outer primary coating and said matrix material than between said colored outer primary coating and said at least one coating on said optical glass fiber.
- 28. A ribbon assembly according to claim 27, wherein said adhesion adjusting oligomer comprises at least one represented by the following formulae in which the listed components are reacted:
- P-(BHCA).sub.m -I-R (2);
- P-((BHCA).sub.m -A-(BHCA).sub.m -I).sub.n -R (3);
- and
- R-I-((BHCA).sub.m-A-(BHCA).sub.m -I).sub.n -R (4),
- wherein BHCA is a hydroxy carboxylic acid which is branched and/or which contains a non-terminal hydroxy functional group that provides a hydrocarbon side chain bound to the polyester backbone upon reaction of the hydroxy functional group to form an ester group;
- I is a polyisocyanate compound;
- A is a polyol;
- P is compound containing at least one hydroxy functional group;
- R is a hydroxy functional compound containing at radiation-curable functional group;
- n is from 1 to about 20 on average; and
- m is from 1 to about 50 on average.
- 29. A ribbon assembly according to claim 27, wherein said adhesion adjusting oligomer comprises at least one represented by the following formula in which the listed components are reacted:
- R-I-((BHCA).sub.s -A-(BHCA).sub.v -I).sub.w -R (7)
- wherein R=a hydroxy functional, radiation- curable compound:
- I=a polyisocyanate compound:
- BHCA=a hydroxy carboxylic acid which is branched and/or which contains a non-terminal hydroxy functional group that provides a carbon-containing side chain bound to the polyester backbone upon reaction of the hydroxy functional group to form an ester group;
- A=a polyol;
- W=1 to about 20 on average; and
- S+V=4 to about 20 on average.
- 30. A ribbon assembly according to a claim 29, wherein BHCA comprises poly(12hydroxystearic acid) and A comprises a diol represented by the following formula: ##STR8## Where H=a hydrogen atom; O=an oxygen atom;
- C=is a carbon atom; and
- R.sub.11 and R.sub.12 =are each H or hydrocarbon side chains having from 1 to 12 carbon atoms, with the proviso that R.sub.11 and R.sub.12 are not both H.
- 31. A ribbon assembly according to claim 27, wherein said adhesion adjusting oligomer comprises at least one represented by the following formula in which the listed components are reacted:
- HA-I-Poly(HSA)-I-HA (8)
- wherein HA=hydroxyethyl acrylate,
- I=isophorone diisocyanate; and
- Poly(HSA) is represented by the following formula (9) ##STR9## wherein B+C=2 to about 20 on average.
- 32. A ribbon assembly according to claim 31, wherein B+C is about 5 to about 15 on average.
- 33. A ribbon assembly according to claim 27, wherein said adhesion adjusting oligomer comprises at least one represented by the following formulae in which the listed components are reacted:
- R-I-(A-(PAC-A).sub.t)-I-R (10);
- R-(PAC-A).sub.t -I-R (11)
- R-(PAC-(A-PAC).sub.t)-R (12),
- wherein PAC is a polycarboxylic compound;
- I=a polyisocyanate compound;
- R=a hydroxy functional radiation-curable compound;
- t=1 to about 20 on average, and wherein at least one of the polycarboxylic acid or the polyol is branched to provide a polyester backbone having carbon-containing side chains, or the polyol contains a non-terminal hydroxy functional group which provides a ployester backbone having carbon-containing side chains upon reaction of the hydroxy-functional group with a carboxylic acid to form an ester functional group.
- 34. A ribbon assembly according to claim 27, wherein said colored outer primary coating has a surface energy that provides an average top contract angle of greater than 65.degree..
- 35. A ribbon assembly according to claim 27, wherein said colored outer primary coating has a surface energy that provides an average top contact angle of at least about 70.degree..
- 36. A ribbon assembly according to claim 27, wherein said colored outer primary coating has a surface energy that provides an average top contact angle of at least about 75.degree..
- 37. A ribbon assembly according to claim 27, wherein said colored outer primary coating has a surface energy that provides an average top contact angle of at least about 80.degree..
- 38. A ribbon assembly according to claim 27, wherein said adhesion adjusting oligomer comprises at least one radiation-curable functional group bound to a hydrocarbon backbone.
- 39. A ribbon assembly according to claim 27, wherein said adhesion adjusting oligomer comprises at least one radiation-curable functional group bound to a hydrocarbon backbone comprising a homopolymer or copolymer of ethylene, butylene or propylene.
- 40. A ribbon assembly according to claim 27, wherein said colored outer primary coating composition has been cured in the presence of air.
- 41. A ribbon assembly according to claim 27, wherein said colored outer primary coating compostion has been cured in an inert atmosphere.
- 42. A ribbon assembly according to claim 27, wherein said adhesion adjusting oligomer is present in an amount of about 1 to about 90% by weight based on the total weight of said radiation-curable composition.
- 43. A ribbon assembly according to claim 27, wherein said adhesion adjusting oligomer has a number average molecular weight of from 1,000 to 8,000 and from 5% to 40% of the number average molecular weight of the adhesion adjusting oligomer.
- 44. A ribbon assembly according to claim 43, wherein at least 10% of the number average molecular weight of said adhesion adjusting oligomer is comprised of hydrocarbon side-chains.
- 45. A ribbon assembly according to claim 43, wherein at least 15% of the number average molecular weight of said adhesion adjusting oligomer is comprised of hydrocarbon side-chains.
- 46. A ribbon assembly according to claim 43, wherein less than 20% of the number average molecular weight of said adhesion adjusting oligomer is comprised of hydrocarbon side-chains.
- 47. A ribbon assembly according to claim 43, wherein less than 30% of the number average molecular weight of said adhesion asjusting oligomer is comprised of hydrocarbon side-chains.
- 48. A ribbon assembly according to claim 43, wherein said hydrocarbon side-chains comprise lower alkyls or alkyl substituted aryls having from 3 to 30 carbon atoms.
- 49. A ribbon assembly according to claim 43, wherein said hydrocarbon side-chains comprise lower alkyls or alkyl substituted aryls having from 5 to 20 carbon atoms.
- 50. A ribbon assembly according to claim 43, wherein said hydrocarbon side-chains are spaced out along said backbone in a comb-like structure.
- 51. A ribbon assembly according to claim 27, wherein said colored outer primary coating contains at least one release agent selected from the group consisting of silicones, silicone acrylates, fluorocarbon-oils, and fluorocarbon resins.
- 52. A ribbon assembly according to claim 27, wherein said matrix material is formulated from a matrix forming composition containing at least one adhesion adjusting oligomer.
Parent Case Info
This application is a continuation-in-part of regular U.S. patent application Ser. No. 09/094,497, filed on Jun. 10, 1998, now abandoned, and this application claims priority to Provisional Patent Application Ser. No. 60/049,064, filed on Jun. 11, 1997, the complete disclosures of which are incorporated herein by reference.
US Referenced Citations (20)
Foreign Referenced Citations (28)
Number |
Date |
Country |
0194891 A1 |
Sep 1986 |
EPX |
0 345 968 A2 |
Dec 1989 |
EPX |
0407004 A2 |
Jan 1991 |
EPX |
0565798 A1 |
Oct 1992 |
EPX |
0527266 A1 |
Feb 1993 |
EPX |
0539030 B1 |
Apr 1993 |
EPX |
0614099 A2 |
Sep 1994 |
EPX |
0 699 933 A2 |
Jun 1996 |
EPX |
0 753 777 A2 |
Jan 1997 |
EPX |
0 780 712 A2 |
Jun 1997 |
EPX |
0262340 A2 |
Apr 1998 |
EPX |
2 672 699 |
Aug 1992 |
FRX |
4007 519 |
Mar 1990 |
DEX |
62-177159 |
Jan 1989 |
JPX |
62-311609 |
Jun 1989 |
JPX |
01152114 |
Jun 1989 |
JPX |
4057 814 |
Jun 1990 |
JPX |
3-35210 |
Feb 1991 |
JPX |
3067 208 |
Jun 1991 |
JPX |
04296315 |
Oct 1992 |
JPX |
242146 |
Jul 1995 |
NZX |
WO 9013579 |
Nov 1990 |
WOX |
WO 9321248 A1 |
Oct 1993 |
WOX |
WO 9602596 A1 |
Feb 1996 |
WOX |
WO 9705515 |
Feb 1997 |
WOX |
WO 9716469 |
May 1997 |
WOX |
WO 9719029 |
May 1997 |
WOX |
WO 9718493 |
May 1997 |
WOX |
Non-Patent Literature Citations (4)
Entry |
K.W. Jackson, et. al., "The Effect of Fiber Ribbon Component Materials on Mechanical and Environmental Performance", 28 International Wire & Symposium Proceedings (1993), Nov. |
H.C. Chandon, et. al., "Fiber Protective Design for Evolving Telecommunication Applications", International Wire & Symposium Proceedings (1992), Nov. |
J.R. Toler, et. al., "Factors Affecting Mechanical Stripping of Polymer Coatings From Optical Fibers", International Wire & Cable Symposium Proceedings (1989), Nov. |
w. Griffioen, "Strippability of Optical Fibers", EFOC & N, Eleventh Annual conference, Hague (1993), Jul. |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
094497 |
Jun 1998 |
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