| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | D1479 STABLE LIQUID BAP PHOTOINITIATOR AND ITS USE IN RADIATION CURABLE COMPOSITIONS | US13802476 | 2013-03-13 | US20130237626A1 | 2013-09-12 | Timothy Edward BISHOP; Edward Joseph Murphy; John Edmond Southwell; Satyendra Sarmah; TaiYeon Lee |
| The invention relates to radiation curable compositions comprising a liquid 0/s(acyl)phosphine photo initiators of formula (I): wherein each of Ar1, Ar2 and Ar3 is independently a substituted or unsubstituted aryl group. The invention also relates to stabilized forms of liquid bis(acyl)phosphines of formula (I) and radiation curable composition comprising said stabilized photoinitiators. The radiation curable compositions are selected from the group consisting of an optical fiber coating composition and a coating composition capable of radiation cure on concrete and a coating composition capable of radiation cure on metal. | ||||||
| 142 | LED CURING OF RADIATION CURABLE FLOOR COATINGS | US13514391 | 2010-12-16 | US20130224495A1 | 2013-08-29 | Keqi Gan; Timothy Bishop; Tai-Yeon Lee; Huimin Cao; Mark Diaz |
| A radiation curable coating for a floor comprising: at least one radiation curable oligomer, at least one photoinitiator and at least one reactive diluent monomer, said radiation curable oligomer being selected from the group consisting of Urethane (meth)acrylates, epoxy (meth)acrylates, polyester (meth)acrylates, acrylic (meth)acrylates, and hydrocarbon (meth)acrylates is described and claimed. The composition is capable of undergoing photopolymerization when coated on a floor and when irradiated by a light emitting diode (LED) light, having a wavelength from about 100 nm to about 900 nm, to provide a cured coating on the floor, with the cured coating having an external surface, and the cured coating having a Percent Reacted Acrylate Unsaturation (% RAU) at the external surface of about 60% or greater. Also described and claimed are the process to coat a floor with the LED curable coating for floor and a coated floor where the coating has been cured by application of LED light. | ||||||
| 143 | RADIATION CURABLE COATINGS FOR CONCRETE FLOORS | US13807899 | 2011-06-30 | US20130101837A1 | 2013-04-25 | Huimin Cao; Wenguang Li; Tai Yeon Lee |
| Radiation-curable coating compositions for a surface such as a concrete floor, which include at least one multi-functional monomer or oligomer, a polymer, at least one photoinitiator, and one or more tertiary amine compounds containing zero or one crosslinkable double bonds are described and claimed. These coating compositions allow for application of at least about 0.15 mm (6 mil) thickness of the coating composition over an area larger than a UV radiation source, without the formation of wrinkles or buckles following each pass of the UV radiation source in the areas where light leakage from a side light shielding of the UV radiation source results in a very weak radiation intensity. These coating compositions are optionally clear, in addition, a method for coating a surface with a radiation-curable coating composition that results in a smooth cured surface with no wrinkles or buckles formed following each pass of the UV radiation source, and a surface coated with the radiation curable coating compositions of the instant claimed invention are described and claimed. | ||||||
| 144 | Building board | US12912376 | 2010-10-26 | US08420204B2 | 2013-04-16 | Syouzou Ohno; Yoshinori Hibino |
| Provided is a building board having non-flammability and being excellent in designability. In the building board, an impregnated coating film, an aqueous coating film, a solvent-based clear coating film and a top clear coating film are formed, in this order, on a surface of a base member. The aqueous coating film is formed of a synthetic resin and a fireproofing agent; the top clear coating film is formed of a UV-curable type resin and a fireproofing agent; the amount of fireproofing agent in the aqueous coating film is 10 to 50 wt % with respect to the solids of the aqueous coating film; the amount of the fireproofing agent in the top clear coating film is 5 to 20 wt % with respect to the solids of top clear coating film; and the total calorific value measured in accordance with ISO 5660, for 20 minutes using a cone calorimeter, is smaller than 8 MJ/m2. | ||||||
| 145 | BUILDING BOARD AND BUILDING BOARD PRODUCTION METHOD | US13230569 | 2011-09-12 | US20130065061A1 | 2013-03-14 | Takahiro YAMAGUCHI; Akira MOCHIZUKI; Hiroyuki YAMAUCHI |
| In a building board, a base coating film, an inkjet coating film and a clear coating film are sequentially formed on a surface of an inorganic board; the inkjet coating film is a cured product of a UV-curable ink; and the clear coating film contains 0.1 to 10.0 wt % of a light stabilizer and/or ultraviolet absorbent. A method of producing a building board includes the steps of: implementing base coating onto a surface of an inorganic board; performing inkjet coating by coating a UV-curable ink onto the surface of the base-coated inorganic board and curing the UV-curable ink through irradiation of UV rays; and performing clear coating by applying a clear coating material containing 0.1 to 10.0 wt %, on solids basis, of a light stabilizer and/or ultraviolet absorbent, onto the surface of the inkjet-coated inorganic board. | ||||||
| 146 | System and method for gemstone micro-inscription | US11775181 | 2007-07-09 | US08319145B2 | 2012-11-27 | Charles Rosario; William H. Moryto |
| A gemstone micro-inscription system, comprising an energy source, a spatial light modulator, and a control, the control controlling a spatial light pattern modulation of the spatial light modulator, wherein the spatial light modulator exposes a photoresist on the gemstone, which selectively impedes an etching process to produce a pattern on the gemstone corresponding to the spatial light modulation pattern. | ||||||
| 147 | CONCRETE COLORING COMPOSITIONS AND METHODS | US13345200 | 2012-01-06 | US20120247372A1 | 2012-10-04 | Sanford Lee Hertz; Ed Daraskevich; William Tao; Jason J. Netherton; Matthew S. Gebhard; T. Haward Killilea; Kevin W. Evanson |
| The present invention provides acidic compositions and methods that are adapted to impart color to cementitious or mineral substrate surfaces. Specifically, the present invention relates to acidic compositions and methods adapted to treat cementitious or mineral substrate surfaces that have the advantage of using a less corrosive acid-based solution. The acidic composition incorporates species including a weak base in equilibrium with a conjugate acid. The presence of such species moderates the corrosive behavior of the acid while still allowing excellent coloring action to occur. | ||||||
| 148 | Method for Marking a Substrate | US13163864 | 2011-06-20 | US20120021194A1 | 2012-01-26 | Christopher Alston; Greg Brunton; Peter Pagones; Joseph Sanegor |
| The present invention relates to methods for marking a substrate. In particular, the present invention relates to methods for applying visual indicia to a substantially cementitious substrate in the form of a cementitious building product. The method comprising the steps of: irradiating a surface of said substantially cementitious substrate for a sufficient time and with sufficient energy to at least partially vitrify said surface thereby marking said substrate. | ||||||
| 149 | Concrete coloring compositions and methods | US12291316 | 2008-11-07 | US08092555B2 | 2012-01-10 | Sanford Lee Hertz; Ed Daraskevich; William Tao; Jason J. Netherton; Matthew S. Gebhard; T. Howard Killilea; Kevin W. Evanson |
| The present invention provides acidic compositions and methods that are adapted to impart color to cementitious or mineral substrate surfaces. Specifically, the present invention relates to acidic compositions and methods adapted to treat cementitious or mineral substrate surfaces that have the advantage of using a less corrosive acid-based solution. The acidic composition incorporates species including a weak base in equilibrium with a conjugate acid. The presence of such species moderates the corrosive behavior of the acid while still allowing excellent coloring action to occur. | ||||||
| 150 | PHOTOCHEMICAL MODIFICATION OF SOLID MATERIALS | US13124653 | 2009-10-16 | US20110251059A1 | 2011-10-13 | Johannes Teunis Zuilhof; Ter Maat Jurjen |
| The present invention relates to a process for modifying or functionalizing oxide surfaces, such as surfaces of SiO2 and Al2O3, but also metals including alloys such as stainless steel with alkenes or alkynes under mild conditions by photochemical reaction. The process is very well suited to form patterned modified surfaces which are of use for example in microelectronics, biosensing and catalysis. | ||||||
| 151 | BILLBOARD | US13163068 | 2011-06-17 | US20110247251A1 | 2011-10-13 | Ludwig Morasch; Otmar Ohlinger |
| A billboard having a self-supporting, non-combustible panel which has a base layer for printing inks that cure under ultraviolet light. In order to obtain noncombustible billboards, it is proposed that the panel be produced from fibre cement and provided with a directly applied acrylate coating, optionally containing colour pigments, as base layer for acrylic-based printing inks. | ||||||
| 152 | Composite cement article incorporating a powder coating and methods of making same | US11179355 | 2005-07-11 | US07998571B2 | 2011-08-16 | David Lyons; Theresa Sukkar |
| A cementitious composite article incorporating a powder coating on at least one surface is provided. The composite article includes a surface treatment adapted to facilitate application of the powder coating onto the article. The surface treatment can include modifications to surface porosity, surface, and/or application of a sealer to the surface so as to make the cementitious surface more conducive to powder coating. One method of manufacturing the cementitious composite article includes first applying a sealer coating to a surface of a fiber cement substrate, partially curing the substrate to a gel-like state, applying a powder coating to the article, processing the article to a curing device in which the powder coating and sealer coating are co-cured to form a hardened film. | ||||||
| 153 | Composite article and fabrication method | US12789787 | 2010-05-28 | US07998569B2 | 2011-08-16 | Wayde R. Schmidt |
| A refractory metal composite article includes a refractory metal ceramic section and a refractory metal ceramic coating disposed directly adjacent to the refractory metal ceramic section. The refractory metal ceramic section and the refractory metal ceramic coating form a composite porous matrix. Each of the refractory metal ceramic section and the refractory metal ceramic coating includes at least one of a refractory metal carbide, a refractory metal silicide, or a refractory metal boride. A solid filler is disposed within pores of the composite porous matrix, and the solid filler is selected from a polymer material, a ceramic material, a metallic material, a glass material, and a glass ceramic material. | ||||||
| 154 | COMPOSITE ARTICLE AND FABRICATION METHOD | US12789787 | 2010-05-28 | US20100239842A1 | 2010-09-23 | Wayde R. Schmidt |
| A refractory metal composite article includes a refractory metal ceramic section and a refractory metal ceramic coating disposed directly adjacent to the refractory metal ceramic section. The refractory metal ceramic section and the refractory metal ceramic coating form a composite porous matrix. Each of the refractory metal ceramic section and the refractory metal ceramic coating includes at least one of a refractory metal carbide, a refractory metal silicide, or a refractory metal boride. A solid filler is disposed within pores of the composite porous matrix, and the solid filler is selected from a polymer material, a ceramic material, a metallic material, a glass material, and a glass ceramic material. | ||||||
| 155 | Composite article and fabrication method | US11713924 | 2007-03-05 | US07749568B2 | 2010-07-06 | Wayde R. Schmidt |
| A refractory metal composite article includes a refractory metal ceramic section and a refractory metal ceramic coating that together form a porous matrix. A solid filler is within pores of the porous matrix to, for example, reduce a porosity of the refractory metal composite article. | ||||||
| 156 | X-RAY INDUCED WETTABILITY MODIFICATION | US12357761 | 2009-01-22 | US20100128847A1 | 2010-05-27 | Yong Bum KWON; Byung Mook WEON; Kyu Hwang WON; Jung Ho JE |
| Disclosed is a method for modifying wettability of a surface of an inorganic material, the method comprising the steps of: preparing an inorganic material with a surface; and charging the surface of the inorganic material with positive surface charges obtained from photoelectron-emission by an X-ray irradiation to the surface of the inorganic material. | ||||||
| 157 | METHOD FOR COATING A CEMENT FIBERBOARD ARTICLE | US12183975 | 2008-07-31 | US20100040797A1 | 2010-02-18 | Larry B. Brandenburger; Daniel W. Dechaine; T. Howard Killilea; Andrew Ubel |
| The bottom of a cement fiberboard article is coated by conveying the article across a gap between a first conveyor and second conveyer and applying a liquid radiation-curable coating system to at least the bottom surface of the article while the article passes over the gap. The coating system is radiation-cured to at least a reduced tack state before the coated surface contacts the second conveyor. | ||||||
| 158 | COATING SYSTEM FOR CEMENT COMPOSITE ARTICLES | US12184029 | 2008-07-31 | US20100028696A1 | 2010-02-04 | Larry B. Brandenburger; T. Howard Killilea; Daniel W. DeChaine; Kevin W. Evanson |
| A coated article which includes a cement fiberboard substrate and a radiation-curable coating system applied to the substrate. The coating system includes one or more olefinic compounds and one or more PVC dispersion resins, and may be provided in the form of one or more coating compositions that may be applied in one or more layers. | ||||||
| 159 | REFRACTORY METALLIC OXIDE CERAMIC PART HAVING PLATINUM GROUP METAL OR PLATINUM GROUP METAL ALLOY COATING | US12306092 | 2007-06-22 | US20100015399A1 | 2010-01-21 | Duncan Roy Coupland; Roger Charles Wilkinson |
| Part of the surface of a metallic-oxide refractory ceramic part, such as a fusion-cast refractory block, is treated using a high energy beam, to remove portions of the surface. A metal film may then be sprayed onto the treated surface of the ceramic part, for example to provide protection against erosion/corrosion in glass furnaces. Excellent adhesion between metal and ceramic can be attained. | ||||||
| 160 | BILLBOARD | US12093030 | 2006-10-27 | US20090130406A1 | 2009-05-21 | Ludwig Morasch; Otmar Ohlinger |
| A billboard having a self-supporting, non-combustible panel (1) which has a base layer for printing inks that cure under ultraviolet light. In order to obtain non-combustible billboards, it is proposed that the panel (1) be produced from fibre cement and provided with a directly applied acrylate coating (2), optionally containing colour pigments, as base layer for acrylic-based printing inks. | ||||||
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