161 |
JPH06500204A - |
JP50602192 |
1992-02-18 |
JPH06500204A |
1994-01-06 |
GLOTON JEAN-PIERRE; LAROCHE DAMIEN; TURIN JOEL; FALLAH MICHEL |
|
162 |
Laminating ultraviolet curing printing ink composition |
JP4628386 |
1986-03-05 |
JPS62205174A |
1987-09-09 |
FUKUMURA NORIO; MATSUURA TAKEAKI; TORIYAMA YASUHIRO |
PURPOSE:The titled composition, containing a specific vinyl chloride-vinyl acetate copolymer, monomer having one ethylenically unsaturated double bond and monomer having >=2 ethylenically unsaturated double bonds in a specific proportion and suitable for producing plastic laminates. CONSTITUTION:A composition obtained by blending (A) a vinyl chloride-vinyl acetate copolymer having 300-700 average polymerization degree and <25% vinyl acetate content with (B) a monomer having one ethylenically unsaturated double bond, e.g. styrene, etc., and (C) a monomer and/or oligomer, e.g. urethane diacrylate oligomer, etc., having >=2 ethylenically unsaturated double bonds as a vehicle at 5:95-30:70 weight ratio [(A):(B+C)] and 98:2-70:30 weight ratio [(B):(C)]. |
163 |
Magnetic recording tape carrier |
JP5752177 |
1977-05-18 |
JPS52141611A |
1977-11-26 |
ROBEERU RIBURU; YUUJIN SHIYARUBU |
|
164 |
JPS512850B2 - |
JP7184372 |
1972-07-18 |
JPS512850B2 |
1976-01-29 |
OHOTSUBO HIRO; FUJIKURA SUGURU; MIYATA YOSHIMITSU |
|
165 |
JPS4998483A - |
JP13208473 |
1973-11-24 |
JPS4998483A |
1974-09-18 |
|
|
166 |
JPS4931415A - |
JP7184272 |
1972-07-18 |
JPS4931415A |
1974-03-20 |
OHOTSUBO HIRO; FUJIKURA SUGURU; MIYATA YOSHIMITSU |
|
167 |
LAMINATE, METHOD FOR PRODUCING LAMINATE, AND PERSONAL AUTHENTICATION MEDIUM |
US16045162 |
2018-07-25 |
US20180326710A1 |
2018-11-15 |
Naoki MINAMIKAWA |
A transparent reflection layer is a visible light refractive index of greater than or equal to 2.0. In a plan view of a plane, the transparent reflection layer is located in a part of the transfer layer. At least a part of the transparent reflection layer is located inside an outline of the transfer layer. A portion of the transfer layer that is nil of the transparent reflection layer is a visible light refractive index of between 1.4 and 1.8 inclusive. The polycarbonate layer encloses the transfer layer. A cross section in a thickness direction of the laminate includes a first cross section that is nil of the transfer layer, a second cross section including the portion of the transfer layer that is nil of the transparent reflection layer, and a third cross section including a portion of the transfer layer that includes the transparent reflection layer. |
168 |
Two piece transaction card having fabric inlay |
US15695099 |
2017-09-05 |
US10121100B2 |
2018-11-06 |
Om J Suthar |
Disclosed embodiments generally relate to a transaction card with a fabric inlay. The transaction card may include a housing component having a first housing surface opposite a second housing surface and an inlay component having a first inlay surface opposite a second inlay surface. The inlay and housing may be joined along the second inlay surface and the first housing surface. In addition, the first inlay surface may include a fabric material and a backer layer configured to support the fabric material of the first inlay surface. |
169 |
SEPARATING DEVICE FOR SEPARATING SECTIONS FROM A MATERIAL WEB, LAMINATING MACHINE COMPRISING A SEPARATING DEVICE, AND METHOD FOR LAMINATING A SHEET OF A MATERIAL WEB AND FOR SEPARATING AT LEAST ONE SECTION FROM A MATERIAL WEB |
US15757463 |
2016-11-03 |
US20180244031A1 |
2018-08-30 |
Manfred LIEBLER |
A separation device is usable for separating portions of a material web. The separation device has at least one front clamping device, with at least one front clamping point, and at least one rear clamping device, with at least one rear clamping point, and at least one first stretching element. The separation device can be switched between at least one traversing mode and at least one separation mode by the movement of at least the at least one first stretching device between at least one first traversing position and at least one first separation position. A transport line is the shortest connection between the at least one front clamping point and the at least one rear clamping point, that connection line completely on a vertical reference plane and traversing or running at a tangent to any component of the separation device on the respective same side as one of a transport path provided for the material web and the portions to be separated. The transport line, in the at least one separation mode, is 2 mm longer than in the at least one traversing mode and has the smallest radius of curvature in the at least one separation mode of at least 0.05 mm. A first reference plane and a second reference plane are mutually spaced apart in an axial direction and a first transport line, lying on the first reference plane, and a second transport line, lying on the second reference plane, have different lengths when the first stretching element is located in the at least one first separation position. |
170 |
TWO PIECE TRANSACTION CARD HAVING FABRIC INLAY |
US15695099 |
2017-09-05 |
US20180174011A1 |
2018-06-21 |
Om J. Suthar |
Disclosed embodiments generally relate to a transaction card with a fabric inlay. The transaction card may include a housing component having a first housing surface opposite a second housing surface and an inlay component having a first inlay surface opposite a second inlay surface. The inlay and housing may be joined along the second inlay surface and the first housing surface. In addition, the first inlay surface may include a fabric material and a backer layer configured to support the fabric material of the first inlay surface. |
171 |
Coextruded foil composite material and its use in card bodies |
US14884008 |
2015-10-15 |
US09796122B2 |
2017-10-24 |
Josef Riedl; Cordula Regensburger; Andreas Braun |
A composite film material usable in a data carrier card body includes a first outer plastic layer, an inner plastic layer and a second outer plastic layer, all the layers together forming a co-extruded composite. The plastic material of the first outer layer is a polyethylene terephthalate glycol copolymer (PETG) or contains a PETG, the plastic material of the inner layer is a thermoplastic elastomer (TPC) or containes a TPC, and the plastic material of the second outer layer is a PETG or contains a PETG. |
172 |
METHOD OF PRINTING |
US15635137 |
2017-06-27 |
US20170297357A1 |
2017-10-19 |
Andrew HINTON-LEVER; Julian DUGDALE |
A method is disclosed for applying an antibacterial coating onto a substrate having one or more layers of print. In a printing press, one or more layers of print are applied to a substrate in a printing step. A finishing composition is applied over the layers of ink by a finishing stage in a finishing step to form a continuous outer protective layer. The finishing composition is applied to the substrate by a roller. The printing step and the finishing step are performed simultaneously. The finishing composition includes an antibacterial additive. |
173 |
METHODS OF MAKING A CORE LAYER FOR AN INFORMATION CARRYING CARD, AND RESULTING PRODUCTS |
US15510815 |
2014-03-07 |
US20170262749A1 |
2017-09-14 |
Mark A. COX |
The disclosure provides a core layer for an information carrying card, resulting information carrying card, and methods of making the same. A core layer for an information carrying card comprises at least one thermoplastic layer having at least one cavity, an inlay layer, and, and a crosslinked polymer composition. At least one portion of the inlayer layer is disposed inside the at least one cavity of the at least one thermoplastic layer. The crosslinked polymer composition is disposed over the at least one thermoplastic layer and contacting the inlayer layer. |
174 |
CARD SUBSTRATE WARPAGE REDUCTION |
US15325767 |
2014-07-22 |
US20170165952A1 |
2017-06-15 |
Ted M. Hoffman; Brent D. Lien |
Embodiments of the invention are directed to a transfer lamination process and apparatus that reduces substrate warpage. In some embodiments, the transfer lamination process is performed using a transfer lamination device, which includes a transfer unit, a substrate rotator, and a transfer ribbon having a carrier layer and a transfer layer attached to the carrier layer. In some embodiments of the transfer lamination process, a transfer section of the transfer layer is transferred from the carrier layer to a first surface of a substrate using the transfer unit. In some embodiments of this transferring step, the transfer section is heated and pressed against the first surface of the substrate using the transfer unit, and the carrier layer is detached from the transfer section. The substrate is then inverted using the substrate rotator. At least a portion of a second surface of the substrate that is opposite the first surface is then heated using the transfer unit without transferring the transfer layer to the portion of the second surface. |
175 |
Coextruded foil composite material and its use in card bodies |
US14172528 |
2014-02-04 |
US09676133B2 |
2017-06-13 |
Josef Riedl; Cordula Regensburger; Andreas Braun |
A composite film material usable in a data carrier card body includes a first outer plastic layer, an inner plastic layer and a second outer plastic layer, all the layers together forming a coextruded composite. The plastic material of the first outer layer is a polyethylene terephthalate glycol copolymer (PETG) or contains a PETG, the plastic material of the inner layer is a thermoplastic elastomer (TPC) or contains a TPC, and the plastic material of the second outer layer is a PETG or contains a PETG. |
176 |
PAPER POST-PROCESSING APPARATUS AND PAPER POST-PROCESSING METHOD |
US15422643 |
2017-02-02 |
US20170144854A1 |
2017-05-25 |
Yosuke Katayama |
A post-processing apparatus comprises a first processing tray on which fed paper is placed; a paper binding section configured to bind a plurality of sheets of paper stacked on the first processing tray into one bundle; a second processing tray which a plurality of paper bundles bound on the first processing tray are sequentially conveyed to and placed on; a paper bundle gluing section configured to coat glue at a given position of the top surface of a first paper bundle placed on the second processing tray before a second paper bundle is placed on the first paper bundle; a pressing section configured to press and bind the first paper bundle with the second paper bundle between which glue is coated; and a control section configured to control the timing for conveying the second paper bundle onto the first paper bundle after the glue is coated. |
177 |
Foil composite card |
US12006168 |
2007-12-31 |
US09542635B2 |
2017-01-10 |
John Herslow |
Composite cards formed in accordance with the invention include a security layer comprising a hologram or diffraction grating formed at, or in, the center, or core layer, of the card. The hologram may be formed by embossing a designated area of the core layer with a diffraction pattern and depositing a thin layer of metal on the embossed layer. Additional layers may be selectively and symmetrically attached to the top and bottom surfaces of the core layer. A laser may be used to remove selected portions of the metal formed on the embossed layer, at selected stages of forming the card, to impart a selected pattern or information to the holographic region. The cards may be “lasered” when the cards being processed are attached to, and part of, a large sheet of material, whereby the “lasering” of all the cards on the sheet can be done at the same time and relatively inexpensively. Alternatively, each card may be individually “lasered” to produce desired alpha numeric information, bar codes information or a graphic image, after the sheets are die-cut into cards. |
178 |
Flexible Asymmetric Radio Frequency Data Shield |
US14672078 |
2015-03-27 |
US20160285171A1 |
2016-09-29 |
John Bernard Moylan |
The present invention is a thin and flexible asymmetric radio frequency shield in the form of a multi layered sheet, offering a high level of electromagnetic shielding in terms of radio frequency signal penetration through the thickness of the shield, one side of which is electrically conducting and reflects radio frequency signals while the other side is electrically insulating and absorbs radio frequency signals. Embodiments include a shield placed in the outer currency compartment of a wallet whereby the contents are shielded, while allowing a frequently used RFID card or document, such as a travel or identity card to be used without needing to be removed from the wallet. The shield may also be used in any other circumstance where a thin and flexible asymmetric radio frequency shield of such a nature is of utility. |
179 |
Method for laminating a protective layer over a printed thermoplastic substrate and security document made therefrom |
US14484259 |
2014-09-12 |
US09434205B2 |
2016-09-06 |
David Cruikshank; Larry O'Gorman; Sean Connelly; Thivaharan Thurailingam |
A method is provided for laminating a thermoplastic layer to at least a print area of a printed thermoplastic substrate (e.g. a polycarbonate substrate and laminate layer). A printed thermoplastic substrate comprises a print area on which an image (e.g. a portrait) is printed (e.g. by inkjet printing), the print area comprising a pattern of recessed cells separated by bridges. Each cell comprises recessed image receiving surfaces below a nominal surface of the print area for holding the ink of the printed image. The bridges have surface areas above the ink and the surface areas of the bridges comprising enough of the print area to provide lamination bonding areas. Using heat and pressure, a thermoplastic layer is laminated to at least the print area of the thermoplastic substrate to form lamination bonding between the thermoplastic layer and the lamination bonding areas provided by the surface areas of the bridges. |
180 |
WRITING PAD |
US14878639 |
2015-10-08 |
US20160101641A1 |
2016-04-14 |
Donald Edward Gonzales, III |
An article capable of use in writing is disclosed. The article comprising at least one sheet configured for being written onto with a writing device, wherein a material of the at least one sheet comprises each of polyester and taffeta. |