Claims
- 1. A printing plate comprising:
a metal substrate having an anodized surface portion, said surface portion defining a plurality of pores; a radiation-absorbing composition received in said pores; and a coating composition covering said surface portion and said radiation-absorbing composition.
- 2. The printing plate of claim 1, wherein said metal is an aluminum alloy.
- 3. The printing plate of claim 2, wherein said substrate is roll textured.
- 4. The printing plate of claim 3, wherein said substrate has a roughness of about 5 to about 45 microinches.
- 5. The printing plate of claim 1, wherein said radiation-absorbing composition is oleophilic.
- 6. The printing plate of claim 5, wherein said radiation-absorbing composition comprises a black dye.
- 7. The printing plate of claim 5, wherein said coating composition is hydrophilic.
- 8. The printing plate of claim 7, wherein said coating composition comprises an acrylic polymer.
- 9. The printing plate of claim 8, wherein said acrylic polymer comprises a copolymer of vinyl phosphonic acid and acrylic acid cured under conditions such that said copolymer is hydrophilic.
- 10. The printing plate of claim 1, wherein said radiation-absorbing composition is hydrophilic.
- 11. The printing plate of claim 10 wherein said radiation-absorbing composition comprises a black dye.
- 12. The printing plate of claim 10, wherein said coating composition is oleophilic.
- 13. The printing plate of claim 12, wherein said coating composition comprises a copolymer of vinyl phosphonic acid and acrylic acid cured under conditions such that said copolymer is oleophilic.
- 14. The printing plate of claim 1, wherein said coating composition is ablatable by radiation directed onto said coating composition overlying said radiation-absorbing composition.
- 15. The printing plate of claim 1, wherein said coating composition overlying said radiation-absorbing composition has an affinity for ink, such that when said coating composition is subjected to radiation, said coating composition changes to have a different affinity for ink.
- 16. The printing plate of claim 13 further comprising a sealant composition disposed between said radiation-absorbing composition and said coating composition.
- 17. The printing plate of claim 16, wherein said sealant composition is selected from the group consisting of nickel acetate, silicate, and polyvinylphosphonic acid.
- 18. The printing plate of claim 16, wherein said coating composition and said sealant composition overlying said radiation-absorbing composition are ablatable by radiation directed thereto.
- 19. The printing plate of claim 16, wherein a first affinity for ink by said coating composition changes to a second affinity for ink when said coating composition overlying said radiation-absorbing composition is subjected to radiation.
- 20. A method of imaging comprising the steps of:
providing a printing plate having a metal substrate with an anodized surface portion defining a plurality of pores, a radiation-absorbing composition received in the pores, and a coating composition covering the surface portion with the radiation-absorbing composition; and exposing the printing plate to a pattern of imaging radiation until a first portion of the printing plate has an affinity for a printing fluid and a second portion of the printing plate has a different affinity for the printing fluid.
- 21. The method of claim 20 wherein said exposing step comprises ablating the coating composition in the location of the pattern of imaging radiation to reveal the anodized surface portion as the first portion of the printing plate, the coating composition not exposed to the radiation being the second portion of the printing plate.
- 22. The method of claim 20 wherein said exposing step comprises changing the affinity of the coating composition for a printing fluid in the location of the
RELATED APPLICATION
[0001] This application claims the benefit of U.S. Provisional Patent Application No. 60/302,396 filed Jul. 2, 2001 entitled “Printing Plate With Dyed And Anodized Surface.”
Provisional Applications (1)
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Number |
Date |
Country |
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60302396 |
Jul 2001 |
US |