Patent application number | Description | Published |
20080229955 | NEGATIVE-WORKING IMAGINABLE ELEMENT FOR DEVELOPMENT-ON-PRESS LITHOGRAPHIC PRINTING PLATE PRECURSOR - A negative-working thermal imaginable element for use in making a lithographic printing plate precursor comprises hydrophilic polymer particles and hydrophobic polymer particles, and may further comprise a converter substance for converting radiation into heat. The converter substance may be selected to have an absorption spectrum that is optimized to absorb at the wavelength of imaging radiation. The negative-working thermal imaginable element may be applied onto a suitable substrate to create a lithographic printing precursor. The imaginable element can be imaged and developed on-press and it can also be sprayed onto a hydrophilic surface to create a printing surface that may be processed wholly on-press. The hydrophilic polymer particles are made by polymerization of at least one hydrophilic monomer and the hydrophobic polymer particles are made by polymerization of at least one hydrophobic monomer. Hydrophilic particles comprise major hydrophilic polymer and reject the ink or oil, and hydrophobic particles comprise major hydrophobic polymer and accept the ink or oil. | 09-25-2008 |
20080229957 | METHOD TO OBTAIN A NEGATIVE-WORKING THERMAL LITHOGRAPHIC PRINTING MASTER - A method to obtain a lithographic printing master comprising the steps of: a) image-wise or information-wise exposing to radiation a thermal negative-working lithographic printing precursor comprising: i) a hydrophilic lithographic base; and ii) a radiation sensitive coating on a surface of said hydrophilic lithographic base, said coating comprising: (1) hydrophilic polymer particles; (2) hydrophobic polymer particles; and (3) a converter substance capable of converting radiation into heat; and b) developing said exposed thermal negative-working lithographic printing precursor with an aqueous medium in order to remove the unexposed areas of said coating. The hydrophilic polymer particles are made by polymerization of at least one hydrophilic monomer and the hydrophobic polymer particles are made by polymerization of at least one hydrophobic monomer. The imaging element may be imaged and developed on-press and may be sprayed onto a hydrophilic surface to create a printing surface that may be processed wholly on-press. The hydrophilic surface may be a printing plate substrate or the printing cylinder of a printing press or a seamless sleeve around the printing cylinder of a printing press. This cylinder may be conventional or seamless. | 09-25-2008 |
20080274424 | Positive photosensitive element comprising vinyl polymers - A positive-working photosensitive composition for use in making an imageable element comprises one or more vinyl copolymers wherein said vinyl copolymer are homopolymer or copolymer containing monomers comprising at least two functional groups such as HOOC—C═C—CONH—R, and may further comprise a converter substance for converting radiation into heat. The converter substance may be selected to have an absorption spectrum that is optimized to absorb at the wavelength of imaging radiation. The composition may be coated onto a suitable substrate to create a lithographic printing precursor. The precursor may be imagewise irradiated with radiation and optionally developed with a developer liquid to produce a lithographic printing master. A positive-working lithographic printing precursor may be prepared using the composition. | 11-06-2008 |
20080286694 | METHOD TO OBTAIN A POSITIVE-WORKING THERMAL LITHOGRAPHIC PRINTING MASTER - A positive-working photosensitive composition for use in making an imageable element comprises one or more vinyl copolymers wherein said vinyl copolymer are homopolymer or copolymer containing monomers comprising at least two functional groups such as HOOC—C═C—CONH—R, and may further comprise a converter substance for converting radiation into heat. The converter substance may be selected to have an absorption spectrum that is optimized to absorb at the wavelength of imaging radiation. The composition may be coated onto a suitable substrate to create a lithographic printing precursor. The precursor may be imagewise irradiated with radiation and optionally developed with a developer liquid to produce a lithographic printing master. A positive-working lithographic printing precursor may be prepared using the composition. | 11-20-2008 |
20090056580 | METHOD TO OBTAIN A TRULY PROCESSLESS LITHOGRAPHIC PRINTING PLATE - A method to obtain a lithographic printing master comprising: a) an imaginable element is formed from a radiation sensitive coating on a base, said coating comprising: (1) hydrophilic polymer particles; (2) hydrophobic polymer particles; and (3) a converter substance capable of converting radiation into heat; b) the imaginable element forms a hydrophilic layer on a base but it can not be removed by water or fountain used for press after coated and dried; c) image-wise or information-wise exposing to radiation, the hydrophilic imaginable element layer becomes hydrophobic for ink under the action of thermal laser and unexposed area remains hydrophilic for water. The converter substance may be selected to have an absorption spectrum that is optimized to absorb at the wavelength of imaging radiation. The hydrophilic polymer particles are made by polymerization of at least one hydrophilic monomer and the hydrophobic polymer particles are made by polymerization of at least one hydrophobic monomer. Hydrophilic particles comprise major hydrophilic polymer and reject the ink or oil, and hydrophobic particles comprise major hydrophobic polymer and accept the ink or oil. The processless lithographic printing precursor so created may be imaged using absorbed radiation that is imagewise converted to heat, resulting in areas of hydrophobic property, while unimaged areas retain their hydrophilic property. This allows the latent image so formed to be employed in creating a negative-working lithographic printing master. The negative-working lithographic printing master so created is irreversible, does not require a substrate of controlled hydrophilicity and provides great toughness in the exposed areas. | 03-05-2009 |
20090056581 | METHOD TO OBTAIN PROCESSLESS PRINTING PLATE FROM IONIC POLYMER PARTICLES - A method to obtain a lithographic printing master comprising: a) an imaginable element is formed from a radiation sensitive coating on a base, said coating comprising: (1) anionic polymer particles; (2) cationic polymer particles; and (3) a converter substance capable of converting radiation into heat; b) the imaginable element forms a hydrophilic layer on a base but it can not be removed by water or fountain used for press after coated and dried; c) image-wise or information-wise exposing to radiation, the hydrophilic imaginable element layer becomes hydrophobic for ink under the action of thermal laser and unexposed area remains hydrophilic for water. The converter substance may be selected to have an absorption spectrum that is optimized to absorb at the wavelength of imaging radiation. The anionic polymer particles have an anionic surface and cationic polymer particles have a cationic surface. The processless lithographic printing precursor so created may be imaged using absorbed radiation that is imagewise converted to heat, resulting in areas of hydrophobic property, while unimaged areas retain their hydrophilic property. This allows the latent image so formed to be employed in creating a negative-working lithographic printing master. The negative-working lithographic printing master so created is irreversible, does not require a substrate of controlled hydrophilicity and provides great toughness in the exposed areas. | 03-05-2009 |
20090061357 | IONIC POLYMER PARTICLES FOR PROCESSLESS PRINTING PLATE PRECURSOR - A processless lithographic printing precursor comprising a substrate, a layer of imaginable element on the substrate. The imaginable element comprising: (1) a substance capable of converting radiation into heat; (2) anionic polymer particles and (3) cationic polymer particles. The imaginable element can not be removed by water or fountain used for press when coated and dried, and becomes hydrophobic under the action of heat. The converter substance may be selected to have an absorption spectrum that is optimized to absorb at the wavelength of imaging radiation. The anionic polymer particles have an anionic surface and cationic polymer particles have a cationic surface. The processless lithographic printing precursor so created may be imaged using absorbed radiation that is imagewise converted to heat, resulting in areas of hydrophobic property, while unimaged areas retain their hydrophilic property. This allows the latent image so formed to be employed in creating a negative-working lithographic printing master. The negative-working lithographic printing master so created is irreversible, does not require a substrate of controlled hydrophilicity and provides great toughness in the exposed areas. | 03-05-2009 |
20090286183 | TRULY PROCESSLESS LITHOGRAPHIC PRINTING PLATE PRECURSOR - A true processless lithographic printing precursor comprising a substrate, a layer of imaginable element on the substrate. The imaginable element comprising: (1) a substance capable of converting radiation into heat; (2) hydrophobic polymer particles and (3) hydrophilic polymer particles. The imaginable element can not be removed by water or fountain used for press when coated and dried, and becomes hydrophobic under the action of heat. The converter substance may be selected to have an absorption spectrum that is optimized to absorb at the wavelength of imaging radiation. The hydrophilic polymer particles are made by polymerization of at least one hydrophilic monomer and the hydrophobic polymer particles are made by polymerization of at least one hydrophobic monomer. Hydrophilic particles comprise major hydrophilic polymer and reject the ink or oil, and hydrophobic particles comprise major hydrophobic polymer and accept the ink or oil. The processless lithographic printing precursor so created may be imaged using absorbed radiation that is imagewise converted to heat, resulting in areas of hydrophobic property, while unimaged areas retain their hydrophilic property. This allows the latent image so formed to be employed in creating a negative-working lithographic printing master. The negative-working lithographic printing master so created is irreversible, does not require a substrate of controlled hydrophilicity and provides great toughness in the exposed areas. | 11-19-2009 |