41 |
Methods for assembling devices using pressure indicator adhesives |
US13679699 |
2012-11-16 |
US09335187B2 |
2016-05-10 |
Stephen R. McClure; Derek W. Wright; Carl R. Peterson; Kristina A. Babiarz |
Pressure indicator pressure sensitive adhesive may contain microspheres that burst and release indicator when subjected to pressure and thereby produce a detectable indication of how much pressure has been applied when forming an adhesive joint between opposing structures. Electronic device structures can be assembled using the pressure indicator pressure sensitive adhesive. A camera or other sensor may monitor joint formation. The camera can gather infrared image data, visible light image data, or ultraviolet light image data. Sensor data such as magnetic or ultrasonic sensor data can also be collected on an adhesive joint. Joint inspection can be performed on test structures and production structures and corresponding adjustments made to the joint formation process. Positioners and other equipment that compresses the pressure indicator pressure sensitive adhesive can be adjusted in real time or calibrated using information about the condition of the pressure indicator pressure sensitive adhesive. |
42 |
A LAMINATE OF OPTICAL ELEMENTS HAVING A LAYER OF A PRESSURE-SENSITIVE ADHESIVE, AND A METHOD FOR PRODUCING SUCH LAMINATE OF OPTICAL ELEMENTS |
US14891492 |
2015-01-16 |
US20160084991A1 |
2016-03-24 |
Toru UMEMOTO; Hirofumi KATAMI; Hiroyuki TAKAO; Takahiro NONAKA; Atsushi YASUI; Takami HIKITA |
A laminate of optical elements comprises a transparent first optical element, a second optical element, and a transparent pressure-sensitive adhesive layer for bonding the first optical element to the second optical element. The pressure-sensitive adhesive layer comprises a base adhesive zone, a transparent refractive index-adjusting zone. The base adhesive zone is made essentially of a transparent base pressure-sensitive adhesive material and formed over a given range from a first principal surface of the pressure-sensitive adhesive layer facing the first optical element, in a thickness direction of the pressure-sensitive adhesive layer. The a transparent, adherent, refractive index-adjusting zone is formed over a given range from a second principal surface of the pressure-sensitive adhesive layer facing the second optical element. |
43 |
ADHESIVE BEADS |
US14764503 |
2014-02-03 |
US20150361314A1 |
2015-12-17 |
Carolyn Dry |
The present technology provides for adhesive beads, comprising a shell and a core wherein the core comprises one or more cyanoacrylate monomers and the shell comprises a polycyanoacrylate of the same one or more cyanoacrylate monomers. The present technology further provides for methods of making and using the adhesive beads. |
44 |
Adhesive composition for detachable adhesive bonds and modification of the encapsulation materials for a purposeful energy input |
US13749277 |
2013-01-24 |
US08916267B2 |
2014-12-23 |
Monika Bauer; Arnaud Concord; Eike Langkabel; Hans Luinge; Georg Wachinger |
An adhesive composition for detachable adhesive bonds is based on adhesive matrices and expansion material. The particles of the expansion material are at least partially encapsulated. A bond of at least two components and an adhesive layer includes an adhesive composition based on adhesive matrices and expansion material. The bonded components may include metal, plastic, wood, glass, natural or synthetic materials or a composite material thereof. |
45 |
LIGHTWEIGHT TWO-SIDED ADHESIVE TAPE |
US14302870 |
2014-06-12 |
US20140370221A1 |
2014-12-18 |
Yu-chu Chen; Shigeki Muta |
A lightweight two-sided adhesive tape containing a porous substrate interposed between a first adhesive layer and a second adhesive layer capable of being removed from a surface without leaving significant amounts of adhesive residue on the surface. The first adhesive layer contains one or more adhesives, and one or more powders. The second adhesive layer contains one or more adhesives, and optionally, one or more powders. |
46 |
ADHESION PROMOTING CURATIVE AND STABILIZER SYSTEM FOR ELASTOMER COMPOSITION |
US14454305 |
2014-08-07 |
US20140350145A1 |
2014-11-27 |
Charles Smith; Ivan Burczak |
A vulcanizable elastomer composition having improved adhesion to other polymers and comprising at least one elastomer and an adhesion promoting curative and stabilizer system, wherein the adhesion promoting curative and stabilizer system comprises: a) an organic peroxide; b) a diazabicycloamine; c) an isocyanurate; d) a layered organically modified inorganic nanofiller; and e) optionally an antioxidant. The elastomer composition has good heat aging properties, even when antioxidants are not used, and exhibits strong adhesion to other polymers upon vulcanization. |
47 |
Methods for Assembling Devices Using Pressure Indicator Adhesives |
US13679699 |
2012-11-16 |
US20140138011A1 |
2014-05-22 |
Stephen R. McClure; Derek W. Wright; Carl R. Peterson; Kristina A. Babiarz |
Pressure indicator pressure sensitive adhesive may contain microspheres that burst and release indicator when subjected to pressure and thereby produce a detectable indication of how much pressure has been applied when forming an adhesive joint between opposing structures. Electronic device structures can be assembled using the pressure indicator pressure sensitive adhesive. A camera or other sensor may monitor joint formation. The camera can gather infrared image data, visible light image data, or ultraviolet light image data. Sensor data such as magnetic or ultrasonic sensor data can also be collected on an adhesive joint. Joint inspection can be performed on test structures and production structures and corresponding adjustments made to the joint formation process. Positioners and other equipment that compresses the pressure indicator pressure sensitive adhesive can be adjusted in real time or calibrated using information about the condition of the pressure indicator pressure sensitive adhesive. |
48 |
MECHANICAL AND ANTICORROSIVE PROTECTION VINYL TAPE |
US13996646 |
2011-12-22 |
US20130288051A1 |
2013-10-31 |
Vanessa Correa Arantes; Mitsuo M. Yamasihita |
Pressure sensitive tape for anticorrosion steel pipe protection used primarily in cases of repair and maintenance, comprising vinyl base-tape laminated with a nitrile rubber-based adhesive of the following composition: about 30.7 to about 34.0% (w/w) solid butadiene acrylonitrile rubber (NBR); about 0.57 to about 0.63% (w/w) antioxidant; about 9.7 to about 12.9% (w/w) hydrocarbon resin; about 1.52 to about 1.68% (w/w) zinc oxide; about 8.7 to about 9.5% (w/w) liquid butadiene acrylonitrile rubber. (NBR); about 4.0 to about 4.4% (w/w) aluminium hydrosilicate; about 5.5 to about 7.5% (w/w) diisononyl phthalate; about 0.66 to about 0.74% (w/w) carbon black; about 1.5 to about 1.7% (w/w) amorphous silica; and about 25.8 to about 38.8% (w/w) magnesium and calcium carbonate. The tape exhibits a good ability to conform to irregular surfaces, good elasticity, good impact resistance, excellent pipe adhesion and good cathodic detachment. The tape is ideally used in conjunction with a primer that improves adhesion between the pipe and the adhesive portion of the tape. |
49 |
ADHESIVE COMPOSITION FOR DETACHABLE ADHESIVE BONDS AND MODIFICATION OF THE ENCAPSULATION MATERIALS FOR A PURPOSEFUL ENERGY INPUT |
US13749277 |
2013-01-24 |
US20130196143A1 |
2013-08-01 |
Monika Bauer; Arnaud Concord; Eike Langkabel; Hans Luinge; Georg Wachinger |
An adhesive composition for detachable adhesive bonds is based on adhesive matrices and expansion material. The particles of the expansion material are at least partially encapsulated. A bond of at least two components and an adhesive layer includes an adhesive composition based on adhesive matrices and expansion material. The bonded components may include metal, plastic, wood, glass, natural or synthetic materials or a composite material thereof. |
50 |
Thermosensitive adhesive composition, method of manufacturing the same and thermosensitive adhesive material |
US11598132 |
2006-11-10 |
US07989529B2 |
2011-08-02 |
Takehito Yamaguchi; Hiroaki Matsui; Mitsunobu Morita; Takayuki Sasaki; Kunio Hayakawa |
A thermosensitive adhesive composition including a thermosensitive plastic resin, a dispersing agent, a solid plasticizing agent and a eutectic agent represented by the following chemical structure (1): wherein X1 and X2 independently represent any one of a hydrogen atom, a halogen atom and an alkyl group, p and q independently represent an integer of from 1 to 5. |
51 |
Biological active coating components, coatings, and coated surfaces |
US11368087 |
2006-03-03 |
US20100248334A1 |
2010-09-30 |
C. Steven McDaniel |
Disclosed herein are novel coatings and paints comprising a biomolecule composition, wherein the biomolecule composition comprises a phosphoric triester hydrolase. Also disclosed herein are methods of detoxification of a surface contaminated with an organophosphorus compound by contacting the surface with such a coating or paint. Also disclosed herein are novel coating and paint components derived from microorganisms. |
52 |
ELECTROLUMINESCENT ADHESIVE MASSES |
US12293482 |
2007-03-21 |
US20100032625A1 |
2010-02-11 |
Marco Kupsky; Stephan Zollner |
The invention relates to adhesive masses containing at least one electroluminescent additive, single and double-sided adhesive strips which are provided with adhesive masses of said type, and to the use of said adhesive masses for sticking together electronic components. |
53 |
CIRCUIT CONNECTION STRUCTURE |
US12447543 |
2007-10-30 |
US20100025097A1 |
2010-02-04 |
Kazuyoshi Kojima; Kouji Kobayashi; Motohiro Arifuku; Nichiomi Mochizuki |
There is provided a circuit connection structure that can provide satisfactory electrical connection between opposing circuit electrodes and that can sufficiently increase the long-term reliability of electrical characteristics between circuit electrodes. A circuit connection structure 1 comprising a first circuit member 30 having a first circuit electrode 32 formed on the main side 31a of a first circuit board 31, a second circuit member 40 situated opposing the first circuit member 30 and having a second circuit electrode 42 formed on the main side 41a of a second circuit board 41, and a circuit-connecting member 10 provided between the main side of the first circuit member 30 and the main side of the second circuit member 40 and electrically connecting the first and second circuit electrodes 32, 42, characterized in that the thickness of the first and second circuit electrodes 32, 42 is at least 50 nm, the circuit-connecting member 10 is obtained by curing a circuit-connecting material containing an adhesive composition and conductive particles 12 having multiple protrusions 14 on the surface side, and the outermost layer of the conductive particles 12 is composed of nickel or a nickel alloy. |
54 |
SILICONE OIL-REPELLENT PAPER PRODUCT COATED WITH A THERMOPLASTIC ADHESIVE |
US12421912 |
2009-04-10 |
US20090256347A1 |
2009-10-15 |
Reinhold Uhlemayr |
The present invention makes available a paper product with a silicone oil-repellent, activatable adhesive coating that can be printed with a laser printer, with the adhesive coating serving to seal a single sheet to itself or neighboring sheets of paper products to one another, and with the silicone-oil repellency being obtained by means of a material selected from the group of fluoroalkyl sodium sulfate(s), fluoroalkyl polyoxyethylene polymer(s), polyvinyl alcohol(s) and mixtures thereof. |
55 |
Adhesive for thermal insulator and carbonized-laminated body for thermal insulator using the same |
US11918880 |
2005-04-22 |
US20090042009A1 |
2009-02-12 |
Yukihiro Shibuya; Katsuhiro Yusa |
The present invention provides: an adhesive for a thermal insulator which does not allow the occurrence of the peeling-off and swelling of the layer in the repeating processes of increasing and decreasing temperature in a thermal insulator formed of a laminated matter having a carbon molded body in the layer structure thereof; and a laminated body using the adhesive. The adhesive is an adhesive for a thermal insulator including: (1) a raw material for carbonization with a carbonization ratio of 40% or more; (2) a heterocyclic compound which dissolves the raw material for carbonization; and (3) any of short carbon fibers and short fibers which are carbonizable and insoluble in the heterocyclic compound. The laminated body has a layer structure with a carbonized-molded body therein. The laminated body includes: a before carbonized-laminated body formed by spreading the adhesive for a thermal insulator on at least one surface of the carbonized-molded body and by laminating a different molded body thereon; the laminated body after carbonization; and the carbonized-laminated body for a thermal insulator. |
56 |
Corrosion-Preventive Adhesive Compositions |
US11752591 |
2007-05-23 |
US20080292801A1 |
2008-11-27 |
Jayesh P. Shah; Bo Xia; Chih-Min Cheng |
The present invention concerns adhesive compositions that provide corrosion-preventative properties and improved adhesive bonding on corrodible surfaces, such as may be found in electronic components. These compositions provide the substrates with greatly increased resistance to corrosion, especially during long term exposure to high temperatures and/or high humidity. When used on conductive substrates, the compositions also maintain good initial and ongoing electrical conductivity. |
57 |
Article With Micro Indicia Security Enhancement |
US11954332 |
2007-12-12 |
US20080088895A1 |
2008-04-17 |
Alberto Argoitia; Neil Teitelbaum |
The invention provides an article having an enhanced security feature provided by association of first indicia imaged directly on a substrate or an additional layer supported thereby, and second indicia imaged on flakes within or supported by the substrate. At least the second indicia are discernible only with magnification. |
58 |
Adhesive Chromagram And Method Of Forming Thereof |
US11738855 |
2007-04-23 |
US20070195392A1 |
2007-08-23 |
Roger Phillips; Thomas Mayer; Scott Lamar; Elena Taguer |
An optical structure is provided wherein a windowed demetallized hologram is hot stamped on to an optically variable foil and wherein the demetallized hologram optionally has a coating of optically variable ink thereon. In another embodiment a hologram is hot stamped to a banknote or document printed with a color-shifting ink. |
59 |
Electro-optic assemblies and materials for use therein |
US10984251 |
2004-11-09 |
US20050124751A1 |
2005-06-09 |
Eric Klingenberg; Shafiq Fazel; Charles Honeyman |
An electro-optic display comprises first and second substrates, and an adhesive layer and a layer of electro-optic material disposed between these substrates, the adhesive layer comprising a mixture of a polymeric adhesive material and an additive selected from a salt, a polyelectrolyte, a polymer electrolyte, a solid electrolyte, a conductive metal powder, a ferrofluid, a non-reactive solvent, a conductive organic compound, and combinations thereof. In one aspect, there is provided an adhesive comprising a mixture of a polymeric adhesive material and an additive selected from a salt, a polyelectrolyte, a polymer electrolyte, a solid electrolyte, and combinations thereof. |
60 |
Microorganism coating components, coatings, and coated surfaces |
US10792516 |
2004-03-03 |
US20040175407A1 |
2004-09-09 |
C.
Steven
McDaniel |
Disclosed herein are novel paints and coatings comprising a cell-based particulate material. Specifically disclosed herein is cell-based particulate material prepared from microorganisms for use as a coating component. Also disclosed herein are methods of preparing a coating that comprises a cell-based particulate material. |