Articles bearing patterned microstructures and method of making
First Claim
1. A method for producing an article bearing microstructures, the article comprising a base film substrate and a radiation cured coating layer adhered to the base film substrate, said method comprising:
- a) applying a radiation curable, uncured, coating material to a surface of the base film substrate;
b) passing the base film substrate having the uncured coating thereon through a compression nip defined by a nip roll and a casting drum, the casting drum comprising the microstructures, the compression nip applying a sufficient amount of force to the uncured coating and the base film substrate to control the thickness of the coating and to press the coating into full contact with both the base film substrate and the casting drum to exclude any air between the coating and the drum; and
curing the radiation curable coating by directing radiation energy through the base film substrate from the surface opposite the surface having the coating thereon while the coating is in full contact with the drum to cause the microstructures to be replicated in the cured coating layer.
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Accused Products
Abstract
A method for producing articles bearing patterned microstructures, e.g., optical film, information carrying substrates for optical recording media, etc. includes applying a radiation curable coating material to a surface of a base film substrate, passing the base film substrate and uncured coating through a compression nip defined by a nip roll and a casting drum having pattern master of the microstructures. The method further includes curing the radiation curable coating by directing radiation energy through the base film substrate from the surface opposite the surface having the coating thereon while the coating is in contact with the drum, thus causing microstructure pattern to be replicated in the cured coating layer.
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Citations
21 Claims
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1. A method for producing an article bearing microstructures, the article comprising a base film substrate and a radiation cured coating layer adhered to the base film substrate, said method comprising:
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a) applying a radiation curable, uncured, coating material to a surface of the base film substrate;
b) passing the base film substrate having the uncured coating thereon through a compression nip defined by a nip roll and a casting drum, the casting drum comprising the microstructures, the compression nip applying a sufficient amount of force to the uncured coating and the base film substrate to control the thickness of the coating and to press the coating into full contact with both the base film substrate and the casting drum to exclude any air between the coating and the drum; and
curing the radiation curable coating by directing radiation energy through the base film substrate from the surface opposite the surface having the coating thereon while the coating is in full contact with the drum to cause the microstructures to be replicated in the cured coating layer. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for producing information carrying substrates for optical recording media, the information carrying substrate comprising a base film substrate and a radiation cured coating layer adhered to the base film substrate, the cured coating layer comprising at least one information carrying track pattern for optical recording media, said system configured to:
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apply a radiation curable, uncured, coating material to a surface of the base film substrate;
pass the base film substrate having the uncured coating thereon through a compression nip defined by a nip roll and a casting drum, the casting drum comprising at least one information carrying track pattern master, the compression nip applying an exact force to the uncured coating and the base film substrate to control the thickness of the coating and to press the coating into full dual anaerobic contact with both the base film substrate and the casting drum to exclude any air between the coating and the drum; and
cure the radiation curable coating by directing radiation energy through the base film substrate from the surface opposite the surface having the coating thereon while the coating is in anaerobic contact with the drum to cause the at least one information carrying track pattern to be replicated the cured coating layer. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. Information carrying substrates for optical recording media, said information carrying substrate comprising a base film substrate and a radiation cured coating layer adhered to said base film substrate, said cured coating layer comprising at least one information carrying track pattern for optical recording media, said information carrying substrates produced by a method comprising:
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applying a radiation curable, uncured, coating material to a surface of the base film substrate;
passing the base film substrate having the uncured coating thereon through a compression nip defined by a nip roll and a casting drum, the casting drum comprising at least one information carrying track pattern master, the compression nip applying an exact force to the uncured coating and the base film substrate to control the thickness of the coating and to press the coating into full dual anaerobic contact with both the base film substrate and the casting drum to exclude any air between the coating and the drum; and
curing the radiation curable coating by directing radiation energy through the base film substrate from the surface opposite the surface having the coating thereon while the coating is in anaerobic contact with the drum to cause the at least one information carrying track pattern to be replicated in the cured coating layer. - View Dependent Claims (16, 17, 18, 19, 20, 21)
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Specification