Printed thermoplastic film with radiation-cured overprint varnish
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-003/00
B32B-007/14
출원번호
US-0920866
(2004-08-18)
발명자
/ 주소
Mossbrook,Mendy J.
Kyle,David R.
Edlein,Marc A.
출원인 / 주소
Cryovac, Inc.
인용정보
피인용 횟수 :
12인용 특허 :
32
초록▼
A packaged food product includes a food product and a package enclosing the food product. The package may be formed from a coated, printed film that includes a substrate film including one or more thermoplastic materials and having an average thickness of less than about 15 mils. An image is printed
A packaged food product includes a food product and a package enclosing the food product. The package may be formed from a coated, printed film that includes a substrate film including one or more thermoplastic materials and having an average thickness of less than about 15 mils. An image is printed on the print side of the substrate film. A radiation-cured varnish covers the printed image. The radiation-cured varnish was formed by coating the printed image with a radiation-curable varnish that includes one or more polymerizable reactants and optionally one or more photointiators. The radiation-curable varnish is subsequently exposed to radiation sufficient to polymerize at least 90 weight % of the polymerizable reactants. When the coated, printed film is tested according to the FDA migration test protocol, no more than 50 parts per billion total of any of the polymerizable reactants and the optional photoinitiators migrate within 10 days at 40째 C. from the coated, printed film into a food simulant of 95 weight % ethanol and 5 weight % water enclosed within a test container formed from the coated, printed film so that the food simulant contacts the food side of the substrate film and the ratio of volume of food simulant to surface area of coated, printed film is 10 milliliters per square inch.
대표청구항▼
What is claimed is: 1. A packaged food product comprising: a food product; a package enclosing the food product, the package comprising a coated, printed film comprising: a substrate film comprising one or more thermoplastic materials, the substrate film having a print side and an opposing food si
What is claimed is: 1. A packaged food product comprising: a food product; a package enclosing the food product, the package comprising a coated, printed film comprising: a substrate film comprising one or more thermoplastic materials, the substrate film having a print side and an opposing food side and an average thickness of less than about 15 mils; an image printed on the print side of the substrate film; a radiation-cured varnish over the printed image, the radiation-cured varnish formed by: coating the printed image with a radiation-curable varnish comprising one or more polymerizable reactants and optionally one or more photointiators, wherein the radiation-curable varnish includes less than about 20% monofunctional monomer based on the weight of the radiation-curable varnish; and subsequently exposing the radiation-curable varnish to radiation sufficient to polymerize at least 90 weight % of the one or more polymerizable ractants; wherein when the coated, printed film is tested according to the FDA migration test protocol, no more than 50 parts per billion total of any of the polymerizable reactants and the optional photoinitiators migrate within 10 days at 40째 C. from the coated, printed film into a food simulant selected from the group consisting of i) 95 weight % ethanol and 5 weight % water and ii) 5 weight % ethanol and 95 weight % water, the food simulant enclosed within a test container formed from the coated, printed film so that the food simulant contacts the food side of the substrate film and the ratio of volume of food simulant to surface area of coated, printed film is 10 milliliters per square inch. 2. The packaged food of claim 1 wherein: the package comprises one or more heat-sealed regions; a least a portion of the radiation-cured varnish extends into the heat-sealed region; and the weight of the radiation-cured varnish per unit area of substrate film in the portion of the radiation-cured varnish extending into the heat-sealed region is at least substantially equal to the weight of radiation-cured varnish per unit area of substrate film outside of the heat-sealed region. 3. The packaged food of claim 1 wherein: the package comprises one or more heat-sealed regions; at least a portion of the printed image extends into the heat-sealed region; and the weight of printed image per unit area of substrate film of the portion of the printed image extending into the heat-sealed region is at least substantially equal to the weight of printed image per unit area of substrate film outside of the heat-sealed region. 4. The packaged food of claim 1 wherein: the package further comprises one or more heat-sealed regions; the gloss of the coated, printed film in the heat-sealed regions is at least substantially equal to the gloss of the coated, printed film outside of the heat-sealed regions. 5. The packaged food of claim 1 wherein the coated, printed film is capable of being exposed to 60 psig of contact pressure between the radiation-cured varnish and an aluminum foil for 2 seconds at a temperature of at least 250째 F. with less than 5 weight % of the printed image being transferred to the foil. 6. The packaged food of claim 1 wherein the substrate film comprises polyvinyl alcohol. 7. The packaged food of claim 1 wherein the substrate film has an average thickness of less than about 5 mils. 8. The packaged food of claim 1 wherein the printed image is formed by applying one or more water-or solvent-based inks to the print side of the substrate film and drying the one or more inks. 9. The packaged food of claim 1 wherein the printed image is free of photoinitiator. 10. The packaged food of claim 1 wherein the printed image is formed by applying one or more radiation-curable inks to the print side of the substrate film and curing the one or more inks. 11. The packaged food of claim 1 wherein the package enclosing the food product comprises a vertical form-fill-sealed package. 12. The packaged food of claim 1 wherein the package enclosing the food product includes a lid comprising the coated, printed film. 13. The packaged food of claim 1 wherein the radiation-cured varnish of the coated, printed film has an average gloss of at least about 80% measured in accordance with ASTM D 2457 (60째 angle). 14. The packaged food of claim 1 wherein the coated, printed film has an average gloss of at leas about 80% measured in accordance with ASTM D 2457 (60째 angle), has a crinkle test rating of at least 4, and can withstand at least 150 double rubs under the NPAC rub test without break in the printed image. 15. The packaged food of claim 1 wherein the average thickness of the radiation-cured varnish of the coated, printed film is less than about 5 micrometers. 16. The packaged food of claim 1 wherein the radiation-curable varnish includes less than 20% reactant diluent based on the weight of the radiation-curable varnish. 17. The packaged food product of claim 1 wherein the radiation-cured varnish is formed by: coating the printed image with a radiation-curable varnish comprising one or more polymerizable reactants; and subsequently exposing the radiation-curable varnish to an electron-beam radiation source having an energy of less than 100 keV in an amount sufficient to polymerize at least 90 weight % of the polymerizable reactants. 18. The packaged food of claim 17 wherein the radiation-cured varnish is formed by exposing the radiation-curable varnish to an electron beam radiation source having an energy of less than about 75 keV. 19. The packaged food of claim 17 wherein the radiation-curable varnish includes less than 20% reactant diluent based on the weight of the radiation-curable varnish. 20. The packaged food of claim 17 wherein the radiation-curable varnish is cured by a free radical mechanism. 21. The packaged food of claim 1 wherein the radiation-curable varnish includes less than about 10% monofunctional monomer based on the weight of the radiation-curable varnish. 22. The packaged food of claim 1 wherein the radiation-curable varnish includes less than about 5% monofunctional monomer based on the weight of the radiation-curable varnish. 23. The packaged food of claim 1 wherein the radiation-curable varnish includes less than about 1% monofunctional monomer based on the weight of the radiation-curable varnish. 24. The packaged food of claim 1 wherein the radiation-curable varnish is essentially free of monofunctional monomer. 25. The packaged food of claim 1 wherein the radiation-curable varnish is essentially free of reactive diluent. 26. The packaged food of claim 1 wherein the radiation-curable varnish includes less than about 20% monofunctional oligomer based on the weight of the radiation-curable varnish. 27. The packaged food of claim 1 wherein the radiation-curable varnish includes less than about 10% monofunctional oligomer based on the weight of the radiation-curable varnish. 28. The packaged food of claim 1 wherein the radiation-curable varnish includes less than about 5% monofunctional oligomer based on the weight of the radiation-curable varnish. 29. The packaged food of claim 1 wherein the radiation-curable varnish includes less than about 1% monofunctional oligomer based on the weight of the radiation-curable varnish. 30. The packaged food of claim 1 wherein the radiation-curable varnish is essentially free of monofunctional oligomer. 31. The packaged food of claim 1 wherein the substrate film comprises highly crystalline polyamide. 32. The packaged food of claim 1 wherein the substrate film comprises one or more of the polymer selected from the group consisting of acrylonitrile-butadiene copolymer, isobutylene-isoprene copolymer, and polyacrylonitrile. 33. The packaged food of claim 1 wherein the substrate film comprises one or more of the polymers selected from the group consisting of highly crystalline polypropylene and highly crystalline polyethylene. 34. The packaged food of claim 1 wherein the substrate film comprises polyvinylidene chloride. 35. The packaged food of claim 1 wherein the substrate film comprises ethylene/vinyl alcohol copolymer. 36. The method of packaging food comprising the following steps: a) providing a substrate film comprising one or more thermoplastic materials, the substrate film having a print side and an opposing food side and an average thickness of less than about 15 mils; b) printing an image on the print side of the substrate film; c) coating the printed image with a radiation-curable varnish comprising one or more polymerizable reactants and optionally one or more photointiators, wherein the radiation-curable varnish includes less than about 20% monofunctional monomer based on the weight of the radiation-curable varnish; and d) subsequently exposing the radiation-curable varnish to radiation sufficient to polymerize at least 90 weight % of the one or more polymerizable reactants to produce a coated, printed film comprising a radiation-cured varnish, wherein: when the coated, printed film is tested according to the FDA migration test protocol, no more than 50 parts per billion total of any of the polymerizable reactants and the optional photoinitiators migrate within 10 days at 40째 C. from the coated, printed film into a food simulant selected from the group consisting of i) 95 weight % ethanol and 5 weight % water and ii) 5 weight % ethanol and 95 weight % water, the food simulant enclosed within a test container formed from the coated, printed film so that the food simulant contacts the food side of the substrate film and the ratio of volume of food simulant to surface area of coated, printed film is 10 milliliters per square inch; e) forming a package comprising the coated, printed film; and f) enclosing a food within the package so that the food side of the substrate film faces the enclosed food. 37. The method of claim 36 wherein the forming step comprises heat sealing the coated, printed film to form one or more heat-sealed regions, wherein at least a portion of the radiation-cured varnish extends into the heat-sealed region and the weight of the radiation-cured varnish per unit area of substrate film in the portion of the radiation-cured varnish extending into the heat-sealed region is at least substantially equal to the weight of radiation-cured varnish per unit area of substrate film outside of the heat-sealed region. 38. The method of claim 36 wherein the forming step comprises heat sealing the coated, printed film to form one or more heat-sealed regions, wherein at least a portion of the printed image extends into the heat-sealed region and the weight of the printed image per unit area of substrate film extending into the heat-sealed region is at least substantially equal to the weight of printed image per unit area of substrate film outside of the heat-sealed region. 39. The method of claim 36 wherein the forming step comprises heat sealing the coated, printed film to form one or more heat-sealed regions, wherein the gloss of the coated, printed film in the heat-sealed regions is at least substantially equal to the gloss of the coated, printed film outside of the heat-sealed regions. 40. The method of claim 36 wherein the substrate film comprises polyvinyl alcohol. 41. The method of claim 36 wherein the substrate film has an average thickness of less than about 5 mils. 42. The method of claim 36 wherein the printing step comprises applying one or more water-or solvent-based inks to the print side of the substrate film and drying the one or more inks. 43. The method of claim 36 wherein the printed image is free of photoinitiator. 44. The method of claim 36 wherein the printing step comprises applying one or more radiation-curable inks to the print side of the substrate film and curing the one or more inks. 45. The method of claim 36 wherein the forming step comprises making a vertical form-fill-sealed package. 46. The method of claim 36 wherein the package comprises a lid comprising the coated, printed film. 47. The method of claim 36 wherein the radiation-cured varnish of the coated, printed film has an average gloss of at least about 80% measured in accordance with ASTM D 2457 (60째 angle). 48. The method of claim 36 wherein the coated, printed film has an average gloss of at least about 80% measured in accordance with ASTM D 2457 (60째 angle), has a crinkle test rating of at least 4, and can withstand at least 150 double rubs under the NPAC rub test without break in the printed image. 49. The method of claim 36 wherein the average thickness of the radiation-cured varnish of the coated, printed film is less than about 5 micrometers. 50. The method of claim 36 wherein the radiation-curable varnish includes less than 20% reactant diluent based on the weight of the radiation-curable varnish. 51. The method of claim 36 wherein the exposing step comprises exposing the radiation-curable varnish to an electron-beam radiation source having an energy of less than 100 keV in an amount sufficient to polymerize at least 90 weight % of the polymerizable reactants. 52. The method of claim 36 wherein the exposing step comprises exposing the radiation-curable varnish to an electron beam radiation source having an energy of less than about 75 keV. 53. The method of claim 36 wherein the radiation-curable varnish comprises less than about 10% monofunctional monomer based on the weight of the radiation-curable varnish. 54. The method of claim 36 wherein the radiation-curable varnish comprises less than about 5% monofunctional monomer based on the weight of the radiation-curable varnish. 55. The method of claim 36 wherein the radiation-curable varnish comprises less than about 1% monofunctional monomer based on the weight of the radiation-curable varnish. 56. The method of claim 36 wherein the radiation-curable varnish is essentially free of monofunctional monomer. 57. The method of claim 36 wherein the radiation-curable varnish is essentially free of reactive diluent. 58. The method of claim 36 wherein the radiation-curable varnish comprises less than about 20% monofunctional oligomer based on the weight of the radiation-curable varnish. 59. The method of claim 36 wherein the radiation-curable varnish comprises less than about 10% monofunctional oligomer based on the weight of the radiation-curable varnish. 60. The method of claim 36 wherein the radiation-curable varnish comprises less than about 5% monofunctional oligomer based on the weight of the radiation-curable varnish. 61. The method of claim 36 wherein the radiation-curable varnish comprises less than about 1% monofunctional oligomer based on the weight of the radiation-curable varnish. 62. The method of claim 36 wherein the radiation-curable varnish is essentially free of monofunctional oligomer. 63. The method of claim 36 wherein the substrate film comprises highly crystalline polyamide. 64. The method of claim 36 wherein the substrate film comprises one or more of the polymers selected from the group consisting of acrylonitrile-butadiene copolymer, isobutylene-isoprene copolymer, and polyacrylonitrile. 65. The method of claim 36 wherein the substrate film comprises one or more of the polymers selected from the group consisting of highly crystalline polypropylene and highly crystalline polyethylene. 66. The method of claim 36 wherein the substrate film comprises polyvinylidene chloride. 67. The method of claim 36 wherein the substrate film comprises ethylene/vinyl alcohol copolymer. 68. The method of claim 36 further comprising the step: g) subsequently heating the package to shrink the coated, printed film. 69. The method of claim 36 further comprising the step: g) subsequently heating the package to cook the enclosed food. 70. The method of claim 36 wherein the food side of the substrate film contacts the enclosed food. 71. The method of claim 36 wherein the package is formed by heat-sealing the coated, printed film to produce a bag. 72. The method of claim 36 wherein the package is formed by sealing the coated, printed film to tray to enclose the food.
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