Claims
- 1. A thermally convertible lithographic printing precursor developable using an aqueous medium, said thermally convertible lithographic printing precursor comprising
a) a hydrophilic lithographic base, b) a radiation sensitive coating on at least one surface of said hydrophilic lithographic base, said coating comprising within at least one layer
i. Uncoalesced particles of at least one hydrophobic thermoplastic polymer, ii. at least one organic acid and iii. at least one converter substance capable of converting radiation into heat.
- 2. A thermally convertible lithographic printing precursor as in claim 1, wherein said radiation is light.
- 3. A thermally convertible lithographic printing precursor as in claim 2, wherein said light is infrared.
- 4. A thermally convertible lithographic printing precursor as in claim 3, wherein said at least one hydrophobic thermoplastic polymer is a member of at least one of the following groups of polymers and their associated copolymers: polystyrene, polymers of substituted polystyrene, polyethylene, poly(meth)acrylates, polyvinylchloride, polyurethanes, polyesters, polyacrylonitrile.
- 5. A thermally convertible lithographic printing precursor as in claim 1, wherein said converter substance comprises at least one of carbon black, a pigment and a dye.
- 6. A thermally convertible lithographic printing precursor as in claim 5, wherein said dye comprises an infrared absorbing dye.
- 7. A thermally convertible lithographic printing precursor as in claim 1, wherein said organic acid is at least one of a water-soluble organic acid and a water-miscible organic acid.
- 8. A thermally convertible lithographic printing precursor as in any of the above claims, wherein said hydrophilic lithographic base is one of a metallized plastic sheet, a treated aluminum plate, a sleeve-less printing press cylinder, a printing press cylinder sleeve, and a flexible support having thereon a cross-linked hydrophilic layer.
- 9. A thermally convertible lithographic printing precursor as in claim 8, wherein said sleeve-less printing press cylinder and said printing press cylinder sleeve are seam less.
- 10. A thermally convertible lithographic printing precursor as in claim 8 wherein the surface of said lithographic base is anodized aluminum.
- 11. A thermally convertible lithographic printing precursor as in claim 8, wherein said at least one converter substance is present in the same layer as said uncoalesced particles of at least one hydrophobic thermoplastic polymer.
- 12. A thermally convertible lithographic printing precursor as in claim 8, wherein said coating comprises at least one of
a) malonic acid b) DL-lactic acid c) citric acid d) ethylenediaminetetraacetic acid, tetra sodium salt hydrate and e) a metal acetate.
- 13. A thermally convertible lithographic printing precursor as in claim 8, wherein said coating comprises at least one of a metal complex and an inorganic salt.
CROSS-REFERENCES TO RELATED APPLICATIONS
[0001] This patent is related to our co-pending U.S. patent applications entitled “Method for obtaining a lithographic printing surface using organic acid”, “Method for obtaining a lithographic printing surface using metal complex” and “Thermally convertible lithographic printing precursor comprising a metal complex”. The application numbers will be provided once issued by the USPTO. This patent is also related to our co-pending U.S. patent applications Ser. Nos. 09/745548, 09/745520, 09/785339 and 09/785338.