Patent application number | Description | Published |
20120242011 | METHOD FOR RECYCLING RELIEF IMAGE ELEMENTS - Used flexographic printing members and unused flexographic printing precursors can be recycled for reuse. This recycling can be achieved by melting a laser-engraveable layer of a flexographic printing precursor or a laser-engraved layer of a flexographic printing member to form a melt, and reforming the melt into a new laser-engravable flexographic printing precursor. The laser-engraveable layer or laser-engraved layer comprises one or more thermoplastic elastomeric nanocrystalline polyolefins that can also be mixed with non-nanocrystalline polymers. | 09-27-2012 |
20130029102 | LASER-ENGRAVEABLE COMPOSITIONS AND FLEXOGRAPHIC PRINTING PRECURSORS - Flexographic printing precursors are prepared using laser-engraveable compositions containing a laser-engraveable resin and chemically-crosslinked organic porous particles. The presence of these porous particles, which can include an infrared radiation absorber, improves various imaging and performance properties in the preparation of flexographic printing members such as flexographic printing plates and printing sleeves. | 01-31-2013 |
20130029103 | LASER-ENGRAVEABLE COMPOSITIONS AND FLEXOGRAPHIC PRINTING PRECURSORS - A laser-engraveable composition comprises a laser-engraveable resin having dispersed therein non-crosslinked organic porous particles. These non-crosslinked organic porous particles have a non-crosslinked organic solid phase including an external particle surface and at least one set of discrete pores that are dispersed within the non-crosslinked organic solid phase. The laser-engraveable composition further comprises an infrared radiation absorber within at least some of the non-crosslinked organic porous particles. | 01-31-2013 |
20140050841 | LASER-ENGRAVEABLE ELEMENTS AND METHOD OF USE - A composition comprises a fluoropolymer such as an elastomeric fluoropolymer and at least 1 weight % of a fluoro-functionalized near-infrared radiation absorber. This composition can be formed into laser-engraveable layers for various elements that can be laser-engraved to provide relief images. The resulting laser-engraved elements can take various forms including flexographic printing members, and can be used to apply various inks to receiver materials in an imagewise fashion. | 02-20-2014 |
20140366759 | PATTERNED MATERIALS AND METHODS OF MAKING THEM - A patterned material can be prepared from a patterned material precursor having an elastomeric relief image-forming layer. The formed relief image comprises uppermost surfaces and relief recesses such as recess walls and recess floors. The patterned material also has a layer disposed on either a portion or the entire surface of the relief image in the elastomeric layer. This layer includes a reaction product of a non-fluorinated metal oxide precursor and a hydrolyzable fluoroalkylsilane. The reaction product is formed by applying a reactive composition of the noted components over the entire relief image in the patterned material precursor, following by drying and curing. | 12-18-2014 |
20140370305 | PATTERNABLE MATERIALS AND METHODS OF USE - A patternable material can be prepared with an elastomeric relief image-forming layer. The patternable material has a relief image-forming elastomeric layer and also has a layer disposed on the entire surface of this elastomeric layer. This layer includes a reaction product of a non-fluorinated metal oxide precursor and a hydrolyzable fluoroalkylsilane. The reaction product is formed by applying a reactive composition of the noted components over the entire surface. | 12-18-2014 |
20150367594 | PATTERNED AND PRIMED TRANSPARENT ARTICLES - A first polymer latex and second polymer latex can be mixed to form a dried primer layer on a substrate to adhere patterned materials having fine lines. The first polymer latex comprises a first polymer and a first surfactant such that a dried coating of the first polymer latex has a surface polarity of at least 50%. The second polymer latex comprises a second polymer and a second surfactant such that a dried coating of the second polymer latex has a surface polarity of less than or equal to 27%. Moreover, a dried coating of the mixture has a surface polarity of at least 15% and up to and including 50%. Primed substrates are useful for preparing electrically-conductive articles having electrically-conductive fine lines directly on a dried primer layer by applying a patterned material to a substrate. Such articles can be used as touch screen displays in various electronic devices. | 12-24-2015 |
20150368501 | LATEX PRIMER COMPOSITION AND LATEX PRIMED SUBSTRATES - A first polymer latex and second polymer latex can be mixed to form a dried primer layer on a substrate to adhere patterned materials having fine lines. The first polymer latex comprises a first polymer and a first surfactant such that a dried coating of the first polymer latex has a surface polarity of at least 50%. The second polymer latex comprises a second polymer and a second surfactant such that a dried coating of the second polymer latex has a surface polarity of less than or equal to 27%. Moreover, a dried coating of the mixture has a surface polarity of at least 15% and up to and including 50%. Primed substrates are useful for preparing electrically-conductive articles having electrically-conductive fine lines directly on a dried primer layer by applying a patterned material to a substrate. Such articles can be used as touch screen displays in various electronic devices. | 12-24-2015 |
20150368805 | PREPARATION OF PATTERNED OR ELECTRICALLY-CONDUCTIVE ARTICLES - A first polymer latex and second polymer latex can be mixed to form a dried primer layer on a substrate to adhere patterned materials having fine lines. The first polymer latex comprises a first polymer and a first surfactant such that a dried coating of the first polymer latex has a surface polarity of at least 50%. The second polymer latex comprises a second polymer and a second surfactant such that a dried coating of the second polymer latex has a surface polarity of less than or equal to 27%. Moreover, a dried coating of the mixture has a surface polarity of at least 15% and up to and including 50%. Primed substrates are useful for preparing electrically-conductive articles having electrically-conductive fine lines directly on a dried primer layer by applying a patterned material to a substrate. Such articles can be used as touch screen displays in various electronic devices. | 12-24-2015 |
20150370284 | ELECTRONIC DEVICES AND PRECURSOR ARTICLES - A first polymer latex and second polymer latex can be mixed to form a dried primer layer on a substrate to adhere patterned materials having fine lines. The first polymer latex comprises a first polymer and a first surfactant such that a dried coating of the first polymer latex has a surface polarity of at least 50%. The second polymer latex comprises a second polymer and a second surfactant such that a dried coating of the second polymer latex has a surface polarity of less than or equal to 27%. Moreover, a dried coating of the mixture has a surface polarity of at least 15% and up to and including 50%. Primed substrates are useful for preparing electrically-conductive articles having electrically-conductive fine lines directly on a dried primer layer by applying a patterned material to a substrate. Such articles can be used as touch screen displays in various electronic devices. | 12-24-2015 |