RU2009117460A - D 1364 W SECONDARY COATINGS ON OPTICAL FIBER - Google Patents

Abstract

 1. A radiation-curable secondary coating composition containing a urethane-free alpha oligomer obtained by the reaction of the following components:! (a) an acrylate compound selected from an alcohol-containing acrylate or alcohol-containing methacrylate compound,! (b) the anhydride compound,! (c) a compound containing epoxy groups! (d) optionally a compound serving as a chain extension, and! (e) optionally a catalyst. ! 2. The radiation-curable secondary coating composition of claim 1, further comprising a beta oligomer and optionally a gamma oligomer; wherein said beta oligomer is different from said alpha oligomer. ! 3. The radiation-curable secondary coating composition of claim 2, further comprising an antioxidant; first photoinitiator; second photoinitiator; and optionally a single glidant additive or a mixture of glidant additives; ! where the specified beta oligomer is obtained by reaction! β1) hydroxyethyl acrylate; ! β2) one or more diisocyanates; ! β3) polypropylene glycol with a number average molecular weight of about 1000; and! β4) catalyst; ! where the catalyst for the beta oligomer is selected from the group consisting of dibutyltin dilaurate; metal carboxylates, including, but not limited to: organobismuth catalysts, such as bismuth neodecanoate, CAS 34364-26-6; zinc neodecanoate, CAS 27253-29-8; zirconium neodecanoate, CAS 39049-04-2; and zinc 2-ethylhexanoate, CAS 136-53-8; sulfonic acids, including, but not limited to, dodecylbenzenesulfonic acid, CAS 27176-87-0; and methanesulfonic acid, CAS 75-75-2; catalysts

Claims (14)

1. A radiation-curable secondary coating composition containing a urethane-free alpha oligomer obtained by the reaction of the following components: (a) an acrylate compound selected from an alcohol-containing acrylate or alcohol-containing methacrylate compound, (b) an anhydride compound, (c) a compound containing epoxy groups, (d) optionally a compound serving as a chain extension, and (e) optionally a catalyst. 2. The radiation-curable secondary coating composition of claim 1, further comprising a beta oligomer and optionally a gamma oligomer; wherein said beta oligomer is different from said alpha oligomer. 3. The radiation-curable secondary coating composition of claim 2, further comprising an antioxidant; first photoinitiator; second photoinitiator; and optionally a single glidant additive or a mixture of glidant additives; where the specified beta oligomer is obtained by reaction β1) hydroxyethyl acrylate; β2) one or more diisocyanates; β3) polypropylene glycol with a number average molecular weight of about 1000; and β4) catalyst; where the catalyst for the beta oligomer is selected from the group consisting of dibutyltin dilaurate; metal carboxylates, including, but not limited to: organobismuth catalysts, such as bismuth neodecanoate, CAS 34364-26-6; zinc neodecanoate, CAS 27253-29-8; zirconium neodecanoate, CAS 39049-04-2; and zinc 2-ethylhexanoate, CAS 136-53-8; sulfonic acids, including, but not limited to, dodecylbenzenesulfonic acid, CAS 27176-87-0; and methanesulfonic acid, CAS 75-75-2; amine or organic base catalysts, including, but not limited to: 1,2-dimethylimidazole, CAS 1739-84-0; and diazabicyclo [2.2.2] octane (DABCO), CAS 280-57-9; and triphenylphosphine; zirconium and titanium alkoxides, including, but not limited to, zirconium butylate, (tetrabutyl zirconate), CAS 1071-76-7, and titanium butylate, (tetrabutyl titanate), CAS 5593-70-4; and phosphonium, imidazolium and pyridinium salts in the form of ionic liquids, such as, but not limited to, trihexyl (tetradecyl) phosphonium hexafluorophosphate, CAS No. 374683-44-0; 1-butyl-3-methylimidazolium acetate, CAS No. 284049-75-8; and N-butyl-4-methylpyridinium chloride, CAS No. 125652-55-3; and tetradecyl (trihexyl) phosphonium chloride; and where the specified gamma oligomer is an epoxy diacrylate. 4. An optical fiber coated with a radiation curable primary coating and a radiation curable secondary coating according to claim 1. 5. An optical fiber coated with a radiation-curable primary coating and a radiation-cured secondary coating according to claim 2. 6. An optical fiber coated with a radiation-curable primary coating and a radiation-cured secondary coating according to claim 3. 7. A method of coating an optical fiber, including: a) the operation of the column for drawing glass fibers to obtain glass optical fiber; and b) coating said glass optical fiber with a radiation-curable primary coating composition; c) optionally contacting said radiation-curable primary coating composition with radiation to cure the coating; d) coating said glass optical fiber with a radiation curable secondary coating composition according to claim 1; e) contacting said radiation-curable secondary coating composition with radiation to cure the coating. 8. The method according to claim 7, in which the specified column for drawing glass fibers operates with a drawing speed between about 750 m / min and about 2100 m / min. 9. The wire coated with the first and second layer, where the first layer is a cured radiation-curable coating that is in contact with the outer surface of the wire, and the second layer is a cured radiation-cured secondary coating according to claim 1 in contact with the outer surface primary coverage where the cured secondary coating on the wire has the following properties after initial curing and after one month of aging at a temperature of 85 ° C and 85% relative humidity: A)% RAU from about 80% to about 98%; C) an in-situ modulus between about 0.60 GPa and about 1.90 GPa; and C) the Tube Tg value is from about 50 ° C to about 80 ° C. 10. The optical fiber coated with the first and second layer, where the first layer is a cured radiation-curable primary coating that is in contact with the outer surface of the optical fiber, and the second layer is a cured radiation-cured secondary coating according to claim 1 in contact with the outer surface of the primary coating, where the cured secondary coating on the optical fiber has the following properties after the initial curing and after one month of aging at a temperature of 85 ° C and 85% relative humidity: A)% RAU from about 80% to about 98%; C) an in-situ modulus between about 0.60 GPa and about 1.90 GPa; and C) the Tube Tg value is from about 50 ° C to about 80 ° C. 11. The wire coated with the first and second layer, where the first layer is a cured radiation-curable primary coating that is in contact with the outer surface of the wire, and the second layer is a cured radiation-cured secondary coating according to claim 2 in contact with the outer primary coating surface where the cured secondary coating on the wire has the following properties after initial curing and after one month of aging at a temperature of 85 ° C and 85% relative humidity: A)% RAU from about 80% to about 98%; C) an in-situ modulus between about 0.60 GPa and about 1.90 GPa; and C) the Tube Tg value is from about 50 ° C to about 80 ° C. 12. The optical fiber coated with the first and second layer, where the first layer is a cured radiation-curable primary coating that is in contact with the outer surface of the optical fiber, and the second layer is a cured radiation-cured secondary coating according to claim 2 in contact with the outer surface of the primary coating, where the cured secondary coating on the optical fiber has the following properties after the initial curing and after one month of aging at a temperature of 85 ° C and 85% relative humidity: A)% RAU from about 80% to about 98%; C) an in-situ modulus between about 0.60 GPa and about 1.90 GPa; and C) the Tube Tg value is from about 50 ° C to about 80 ° C. 13. The wire coated with the first and second layer, where the first layer is a cured radiation-curable primary coating that is in contact with the outer surface of the wire, and the second layer is a cured radiation-cured secondary coating according to claim 3 in contact with the outer primary coating surface where the cured secondary coating on the wire has the following properties after initial curing and after one month of aging at a temperature of 85 ° C and 85% relative humidity: A)% RAU from about 80% to about 98%; C) an in-situ modulus between about 0.60 GPa and about 1.90 GPa; and C) the Tube Tg value is from about 50 ° C to about 80 ° C. 14. The optical fiber coated with the first and second layer, where the first layer is a cured radiation-curable Primary Coating that is in contact with the outer surface of the optical fiber, and the second layer is a cured radiation-curable Secondary Coating according to claim 3 in contact with the outer surface of the Primary Coating, where the cured Secondary Coating on optical fiber has the following properties after initial curing and after one month of aging at a temperature of 85 ° C and 85% relative humidity: A)% RAU from about 80% to about 98%; C) an in-situ modulus between about 0.60 GPa and about 1.90 GPa; and C) the Tube Tg value is from about 50 ° C to about 80 ° C.