Substrates and methods for laser marking same
First Claim
1. A substrate suitable for being marked by light energy from a laser comprising:
- a base substrate component; and
a filler pigment component coupled to said base substrate component and including a white metal oxide component coated with a colored glass forming component effective to produce a colored glass-like pigment component in combination with said white metal oxide component and being selected from the group consisting of metal tungstates, metal phosphates, metal phosphosilicates, metal molybdosilicates, metal tungtosilicates metal borates, metal vanadates and mixtures thereof, said filler pigment component being present in an amount effective to, as a result of exposing said substrate to light energy from a laser, produce the colored glass-like pigment component coupled to said base substrate component having a contrasting color relative to said filler pigment component.
1 Assignment
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Accused Products
Abstract
Substrates suitable for being marked by light energy from a laser are disclosed. Such substrates include a base substrate component and a filler pigment component coupled to the base substrate component and including a combined metal component and a glass forming component other than the combined metal component. The filler pigment component is present in an amount effective to, as a result of exposing the substrate to light energy from a laser, produce a colored glass-like pigment component coupled to the base substrate component having a contrasting color relative to the filler pigment component. Markings, for example, on electrical wire insulation, having higher contrast and greater durability are advantageously provided.
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Citations
1 Claim
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1. A substrate suitable for being marked by light energy from a laser comprising:
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a base substrate component; and a filler pigment component coupled to said base substrate component and including a white metal oxide component coated with a colored glass forming component effective to produce a colored glass-like pigment component in combination with said white metal oxide component and being selected from the group consisting of metal tungstates, metal phosphates, metal phosphosilicates, metal molybdosilicates, metal tungtosilicates metal borates, metal vanadates and mixtures thereof, said filler pigment component being present in an amount effective to, as a result of exposing said substrate to light energy from a laser, produce the colored glass-like pigment component coupled to said base substrate component having a contrasting color relative to said filler pigment component.
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Specification