201 |
SELECTIVE OVERCOAT |
US15614724 |
2017-06-06 |
US20180043716A1 |
2018-02-15 |
Oren Levin; Eldad Manheim; Sharon Regev |
Examples described herein include examples methods for generating varnish knockouts that include applying a fixer material to a surface of a print medium, selectively applying a print material over the fixer material to form an image, and applying an overcoat material to form a durable coating on areas over the image and a nondurable coating over other areas of the surface. |
202 |
Laminating |
US14439240 |
2014-06-23 |
US09815264B2 |
2017-11-14 |
Sébastien de la Hamayde |
A line of prints has passed through a laminating machine so that a laminating film has been applied to both surfaces of the line. To enable individual prints to be torn off the laminating film is indented or perforated near to an edge of the line of prints. Tearing is then effected from the perforated edge to the other edge. The indentation or perforation of both films occurs downstream of their respective supply rolls. |
203 |
Matte film and method of manufacturing the same |
US14382598 |
2013-02-22 |
US09695532B2 |
2017-07-04 |
Seung Hoon Lee; Yong Sik Jung; Yun Mi So; In Yong Seo |
Provided is matte film including: a film layer that is formed in a nano-web shape by electrospinning a polymer material; an ink layer that is coated on one surface of the film layer; and an adhesive layer that is laminated on the other surface of the film layer through electrospinning. Since the film layer is formed in a nano-web shape so that fiber strands are accumulated, the matte film can be thinly produced and have a non-glossy function of performing scattered reflection of light and a fingerprint-preventive function of making fingerprints imprinted. Further, the surface strength of the matte film can be reinforced. |
204 |
Substrate for security papers and method of manufacturing the same |
US14767179 |
2014-02-17 |
US09598821B2 |
2017-03-21 |
Johannes Georg Schaede |
There is described a substrate (S) for security documents, such as banknotes, comprising one or more paper layers (11, 12) and a polymer layer (20) which is made to adhere to a side of at least one of the paper layers (11, 12), which polymer layer (20) is substantially transparent in at least one region of the substrate (S) which is not covered by the paper layer or layers (11, 12) so as to form a substantially transparent window (W) in the substrate (S) which is formed and closed by the polymer layer (20). The polymer layer (20) exhibits in the region of the window (W) a thickness (T) which is greater than a thickness (t) of the polymer layer (20) outside of the region of the window (W). The thickness (T) of the polymer layer (20) in the region of the window (W) is substantially equal to the added thickness of the paper layer or layers (11, 12) and of the polymer layer (20) outside of the region of the window (W) so that the substrate (S) exhibits a substantially uniform and constant thickness (T). The substrate (S) further comprises a micro-optical structure (30), in particular a lens structure, which is disposed in the region of the window (W) on at least one side of the polymer layer (20). |
205 |
Device for producing a web of corrugated cardboard that is laminated on at least one side |
US14466123 |
2014-08-22 |
US09545779B2 |
2017-01-17 |
Markus Fischer; Florian Müller |
The invention relates to a device for producing a web of corrugated cardboard comprising a first corrugating roller for producing a corrugated web. The device further has a glue application roller for applying glue to the corrugated web. The glue application roller is associated to the first corrugating roller so as to form a gap and is displaceable relative to the first corrugating roller in order to influence the glue application quantity. The device further comprises a displacement device for displacing the glue application roller relative to the first corrugating roller and a pressing device for pressing a laminating web against the corrugated web. It is further provided with a regulating device which is in signal connection with the displacement device, a gap regulating unit in order to adjust a gap width of the gap between the first corrugating roller and the glue application roller, and a contact force regulating unit in order to adjust a contact force applied to the first corrugating roller by the glue application roller. |
206 |
PLANAR SUPPORT WITH TWO FACES FOR WRITING OR DRAWING BY HAND |
US15168478 |
2016-05-31 |
US20160361895A1 |
2016-12-15 |
Philippe Noblet-Reverbel |
A planar support with two faces for drawing on the two faces of a graphic design, by hand, consists of two fibrous layers having the two faces, a film inside the support making the support opaque, and thermoplastic material layers adhering each of the fibrous sheets, wherein the thermoplastic material layers include light-colored fillers concealing the film |
207 |
SURVEY PLAT DOCUMENTS AND METHOD FOR MAKING SURVEY PLAT DOCUMENTS |
US14682309 |
2015-04-09 |
US20160300510A1 |
2016-10-13 |
James R. Nelson |
Survey plat documents which are not susceptible to intentional alteration or damage due to environmental conditions are made using a photographic process. A transparent photographic film is exposed and photographically processed to capture the image of a plat drawing and then protected by applying clear laminates to each side of the film using a permanent, clear adhesive. |
208 |
Biopaper for Bags and Wrapping Paper |
US14677935 |
2015-04-02 |
US20160288466A1 |
2016-10-06 |
Shantu Patel |
A biopaper for bags and wrapping paper includes a first layer having a bioplastic resin; and a second layer having a thin paper; wherein the first layer and second layer are adhered together to form a sheet of multilayered biopaper. A method of making biopaper includes providing a bioplastic film that includes a bioplastic resin selected from the group consisting of PLA, PLLA, PDLA, PHA, PCL, PH, PBT, GPE, and GPET; providing a lightweight paper; applying a bio adhesive to a side of the lightweight paper; adhering the side of the lightweight paper to the bioplastic film to provide a multilayer paper; and rolling the multilayer paper against a main roller so as to further adhere the lightweight paper and bioplastic film together. |
209 |
SECURITY FEATURE BASED ON A POLYMER LAYER COMPRISING A FIRST AREA AND A FURTHER AREA |
US15029403 |
2014-10-15 |
US20160271996A1 |
2016-09-22 |
Armin Sautter; Frank Puttkammer |
The invention relates generally to a composition comprising: a) a substrate, comprising a substrate surface; b) a polymer layer, comprising a polymer layer surface, wherein the polymer layer i) comprises a polymer, ii) at least partly superimposes the substrate surface of the layer; wherein the polymer layer surface comprises a first area and a further area; wherein an absolute value of a difference between a wetting angle for wetting with water of the first area and a wetting angle for wetting with water of the further area is at least about 10°. |
210 |
PROTECTIVE LAYER TRANSFER SHEET |
US14917409 |
2014-09-19 |
US20160221376A1 |
2016-08-04 |
Suguru YABE; Tomohiro HARADA; Kazumasa MAEDA; Munenori IESHIGE |
The present invention aims principally to provide a protective layer transfer sheet that can prevent occurrence of fusion between a receiving layer and a transfer layer and occurrence of peeling traces when the transfer layer is peeled from the receiving layer, even in the case that thermal energy applied on transfer of the transfer layer is increased and can obtain a high quality printed article and to provide a protective layer transfer sheet that can impart extremely good scratch resistance to the surface of a printed article.A protective layer transfer sheet 100 comprises a substrate 1, and a transfer layer 10 provided on a surface of the substrate 1, and the transfer layer 10 comprises a binder resin and one or more substances selected from the group of phosphoric acid esters, olefin-maleic acid copolymers, and amino polyether-modified silicone oils. |
211 |
FINE CELLULOSE FIBER SHEET |
US14905215 |
2014-07-18 |
US20160177512A1 |
2016-06-23 |
Kazufumi KAWAHARA; Daisuke SATO; Hirofumi ONO; Yamato SAITO |
The present invention provides a fine cellulose fiber sheet, of which various properties and functions such as paper making ability, solvent resistance, adhesion, functionalization agent immobilization, surface zeta potential, hydrophilicity, hydrophobicity, and air permeation resistance are finely controlled, through a process having low environmental impact. A fine cellulose fiber sheet according to the present invention fulfills all of the following requirements (1) to (3): (1) comprises fine cellulose fibers having an average fiber diameter of 2 nm or greater and 1000 nm or less; (2) the weight ratio of the fine cellulose fibers is 50 wt % or greater and 99 wt % or less; and (3) the block polyisocyanate aggregate content as a weight ratio is 1 to 100 wt % of the weight of the fine cellulose fibers. |
212 |
PLANAR SUPPORT WITH TWO FACES FOR WRITING OR DRAWING |
US14933048 |
2015-11-05 |
US20160130766A1 |
2016-05-12 |
Philippe Noblet-Reverbel |
A planar support with two faces on which hand writing and hand drawing may take place includes an assembly of two fibrous layers having the respective faces, and a thermoplastic polymer preparation between the two fibrous layers. The thermoplastic polymer preparation makes the support opaque to direct transmission of light. The thermoplastic polymer preparation is filled with carbon black, chalk, and/or titanium dioxide to scatter and attenuate light in the thermoplastic polymer preparation. |
213 |
Marking paper products |
US14308156 |
2014-06-18 |
US09317722B2 |
2016-04-19 |
Marshall Medoff |
Methods of marking paper products and marked paper products are provided. Some methods include irradiating the paper product to alter the functionalization of the paper. |
214 |
SECURITY ELEMENT COMPRISING AN INTERFERENCE PIGMENT AND A NANOMETRIC FILLER |
US14783703 |
2014-04-09 |
US20160075165A1 |
2016-03-17 |
Jacques MACHIZAUD; Aurelie MAMAN; Michel CAMUS |
A security element, preferably a security wire, for a secure document, that may include a masking structure for reducing the visibility of a surface of the element when the latter is located inside the document or on the surface of the document, the masking structure comprising a nanometric filler and a multilayer interference pigment. |
215 |
CIGARETTE ROLLING PAPERS |
US14784949 |
2014-04-16 |
US20160050971A1 |
2016-02-25 |
Jonathon Mark Harrison |
A rectangular cigarette rolling paper (1) suitable for use in forming a self-rolled cigarette, comprises a repositionable pressure sensitive adhesive which is coated onto the bottom side of the paper (5) and is suitable for adhering said portion of the bottom side to the top side of the cigarette paper when the paper is formed into a cigarette by rolling the paper around tobacco. The sticky area comprises a plurality of regions (4) consisting of said repositionable pressure sensitive adhesive coated onto the bottom side of the paper and at least one region 6 where the bottom side of the paper is not coated with pressure sensitive adhesive. A plurality of the cigarette rolling papers may be assembled to form a pad of cigarette rolling papers. |
216 |
LASER-PERSONALIZABLE SECURITY ARTICLES |
US14118592 |
2012-05-16 |
US20150140292A1 |
2015-05-21 |
Kui Chen-Ho; Christopher K. Haas; Douglas S. Dunn; Duane D. Fansler; Jianhui Xia; Dong-Wei Zhu; Timothy D. Filiatrault; David B. Olson; Randy A. Larson; Jun-Ying Zhang; Encai Hao |
Laser-personalizable security articles include a multi-layer security document and an optically transparent processing tape. The multi-layer security document includes an optically transparent cover layer, a composite image and an imagable layer adjacent to the cover layer. The first surface of the cover layer is at least partially a microstructured surface, where the microstructured surface forms microlenses or a lenticular surface. The composite image is made by a collection of complete or partial images viewed through the microstructured surface of the cover layer. The composite image is located on or within the second surface of the cover layer. The imagable layer is a laser imagable layer. The optically transparent processing tape sufficiently wets out on the microstrucured surface to render the microstructured surface invisible to a writing laser. |
217 |
Marking paper products |
US13440141 |
2012-04-05 |
US08986967B2 |
2015-03-24 |
Marshall Medoff |
Methods of marking paper products and marked paper products are provided. Some methods include irradiating the paper product to alter the functionalization of the paper. |
218 |
Marking paper products |
US14308223 |
2014-06-18 |
US08980601B2 |
2015-03-17 |
Marshall Medoff |
Methods of marking paper products and marked paper products are provided. Some methods include irradiating the paper product to alter the functionalization of the paper. |
219 |
Marking paper products |
US14307922 |
2014-06-18 |
US08975052B2 |
2015-03-10 |
Marshall Medoff |
Methods of marking paper products and marked paper products are provided. Some methods include irradiating the paper product to alter the functionalization of the paper. |
220 |
MATTE FILM AND METHOD OF MANUFACTURING THE SAME |
US14382598 |
2013-02-22 |
US20150030828A1 |
2015-01-29 |
Seung Hoon Lee; Yong Sik Jung; Yun Mi So; In Yong Seo |
Provided is matte film including: a film layer that is formed in a nano-web shape by electrospinning a polymer material; an ink layer that is coated on one surface of the film layer: and an adhesive layer that is laminated on the other surface of the film layer through electrospinning. Since the film layer is formed in a nano-web shape so that fiber strands are accumulated, the matte film can be thinly produced and have a non-glossy function of performing scattered reflection of light and a fingerprint-preventive function of making fingerprints imprinted. Further. the surface strength of the matte film can be reinforced. |