| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | MINERAL STAINS FOR WOOD | EP98920036.5 | 1998-05-01 | EP1012374B1 | 2009-07-15 | Auger, Stephen , B. |
| According to the invention, a metal salt and an oxygen source are applied to penetrate or impregnate a suitable substrate sequentially in effective amounts so as to react in contact with the substrate and produce a mineral compound fixed within the surface of the substrate. The inventive combination of a mutually compatible metal salt, oxygen source, and substrate brings about an in situ reaction, and modifies the substrate to bring about a lasting desired effect. The mineral compound that is produced according to the invention is linked to the substrate, is stable and long-lasting or permanent, and is immobilized or insolubilized in the substrate. The mineral compound is bound or contained within and on the substrate of the substrate, so it may be said to be ingrained in the fibers or matrix of the substrate, or embedded within the substrate. The desired effect is preferably a color. A wide variety of metal salts may be used depending on the desired effect. The oxygen source is preferably a peroxide, and the substrate is preferably a cellulose product such as wood, cotton, or paper; leather; or masonry. The invention contemplates methods of treating substrates, treatment kits, and treated products. With wood products, the invention provides a water-based stain of low toxicity useful for soft woods. | ||||||
| 42 | RETROREFLECTIVE INKS | EP00900263.5 | 2000-01-12 | EP1144524B1 | 2006-10-11 | SAGAR, Brian |
| The combination of ingredients, especially for use in the formulation of a one or two-pack retroreflective ink, comprising retroreflective elements, microbeads additional to said retroreflective elements and/or constituting said retroreflective elements at least in part, binder chemicals for attaching the retroreflective elements and microbeads to a substrate to which the ink is to be applied, and a coupling agent for coupling the microbeads and cross-linking the binder chemicals, the coupling agent being unreactive until the printing process is carried out. | ||||||
| 43 | METHODS FOR PRODUCING IMAGED COATED ARTICLES BY USING MAGNETIC PIGMENTS | EP02733933.2 | 2002-04-02 | EP1412096A2 | 2004-04-28 | PHILLIPS, Roger, W.; LEGALLEE, Charlotte, R.; MARKANTES, Charles, T.; COOMBS, Paul, G.; WITZMAN, Matthew, R. |
| Methods and devices for producing images on coated articles are provided. The methods generally comprise applying a layer of magnetizable pigment coating in liquid form on a substrate, with the magnetizable pigment coating containing a plurality of magnetic non-spherical particles or flakes. A magnetic field is then applied to selected regions of the pigment coating while the coating is in liquid form, with the magnetic field altering the orientation of selected magnetic particles or flakes. Finally, the pigment coating is solidified, affixing the reoriented particles or flakes in a non-parallel position to the surface of the pigment coating to produce an image such as a three dimensional-like image on the surface of the coating. The pigment coating can contain various interference or non-interference magnetic particles or flakes, such as magnetic color shifting pigments. | ||||||
| 44 | RETROREFLECTIVE MATERIALS | EP00956687.8 | 2000-09-01 | EP1210817A2 | 2002-06-05 | SAGAR, Brian; WHITE, Peter |
| A backdrop or backdrop material for use in television and film studios/sets has a retroreflective ink applied thereto, the ink retroreflective elements in a polymeric matrix. The resulting backdrop has a retroreflectivity which remains substantially uniform from normal (0°) to high (60°+) angles of incidence. | ||||||
| 45 | A treated fabric, a method of treatment and a window covering product comprising such material | EP98123804.1 | 1997-09-10 | EP0911442A2 | 1999-04-28 | Jetzer, Jean Claude; Van Olphen, Carolus Bernardus Petrus |
The invention relates to a fabric material which may be used for a window covering, for example. The fabric has a first finish on a first side provided by a first pigment having a first particle size and a second finish on the second side provided by a second pigment having a second particle size larger than the first particle size. The material may be produced by a method in which the first and second finishes are applied simultaneously by a single operation. |
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| 46 | A treated fabric, a method of treatment and a window covering product comprising such material | EP97307021.2 | 1997-09-10 | EP0828022B2 | 2015-07-08 | Jetzer, Jean Claude; van Olphen, Carolus Bernardus Petrus |
| 47 | A treated fabric, a method of treatment and a window covering product comprising such material | EP98123804.1 | 1997-09-10 | EP0911442A3 | 2009-01-21 | Jetzer, Jean Claude; Van Olphen, Carolus Bernardus Petrus |
The invention relates to a fabric material which may be used for a window covering, for example. The fabric has a first finish on a first side provided by a first pigment having a first particle size and a second finish on the second side provided by a second pigment having a second particle size larger than the first particle size. The material may be produced by a method in which the first and second finishes are applied simultaneously by a single operation.
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| 48 | RETROREFLECTIVE INKS | EP00900263.5 | 2000-01-12 | EP1144524A1 | 2001-10-17 | SAGAR, Brian |
| The combination of ingredients, especially for use in the formulation of a one or two-pack retroreflective ink, comprising retroreflective elements, microbeads additional to said retroreflective elements and/or constituting said retroreflective elements at least in part, binder chemicals for attaching the retroreflective elements and microbeads to a substrate to which the ink is to be applied, and a coupling agent for coupling the microbeads and cross-linking the binder chemicals, the coupling agent being unreactive until the printing process is carried out. | ||||||
| 49 | MINERAL STAINS FOR WOOD AND OTHER SUBSTRATES | EP98920036 | 1998-05-01 | EP1012374A4 | 2000-08-23 | AUGER STEPHEN B |
| According to the invention, a metal salt and an oxygen source are applied to penetrate or impregnate a suitable substrate sequentially in effective amounts so as to react in contact with the substrate and produce a mineral compound fixed within the surface of the substrate. The inventive combination of a mutually compatible metal salt, oxygen source, and substrate brings about an in situ reaction, and modifies the substrate to bring about a lasting desired effect. The mineral compound that is produced according to the invention is linked to the substrate, is stable and long-lasting or permanent, and is immobilized or insolubilized in the substrate. The mineral compound is bound or contained within and on the substrate of the substrate, so it may be said to be ingrained in the fibers or matrix of the substrate, or embedded within the substrate. The desired effect is preferably a color. A wide variety of metal salts may be used depending on the desired effect. The oxygen source is preferably a peroxide, and the substrate is preferably a cellulose product such as wood, cotton, or paper; leather; or masonry. The invention contemplates methods of treating substrates, treatment kits, and treated products. With wood products, the invention provides a water-based stain of low toxicity useful for soft woods. | ||||||
| 50 | COLORING METHOD FOR HIDES | EP98918602 | 1998-04-23 | EP0979326A4 | 2000-07-05 | HIRATA JUNICHI; HASEGAWA HIROKO |
| A coloring method, wherein coloring agent or pigment (13) is injected into active cells of an animal hide (2) before the hide is harvested from the animal (1). The coloring agent (13) becomes fixed in the grain layer (5) and reticular layer (6), wherein active cells ingest and spread the coloring agent (13). The present invention also relates to a coloring agent injection device (14) with one or more needles (16) which are injected into the active cells of the hide of an animal (1) whose hide (2) is to be harvested. | ||||||
| 51 | COLORING METHOD FOR HIDES | EP98918602.8 | 1998-04-23 | EP0979326A1 | 2000-02-16 | HIRATA, Junichi; HASEGAWA, Hiroko |
| A coloring method, wherein coloring agent or pigment (13) is injected into active cells of an animal hide (2) before the hide is harvested from the animal (1). The coloring agent (13) becomes fixed in the grain layer (5) and reticular layer (6), wherein active cells ingest and spread the coloring agent (13). The present invention also relates to a coloring agent injection device (14) with one or more needles (16) which are injected into the active cells of the hide of an animal (1) whose hide (2) is to be harvested. | ||||||
| 52 | A treated fabric, a method of treatment and a window covering product comprising such material | EP97307021.2 | 1997-09-10 | EP0828022B1 | 1999-04-28 | Jetzer, Jean Claude; van Olphen, Carolus Bernardus Petrus |
| 53 | CARBON NANOTUBE COATINGS FOR VISIBLE AND IR CAMOUFLAGE | US13637119 | 2011-03-25 | US20130137324A1 | 2013-05-30 | Xiaowu Shirley Tang |
| The present invention provides carbon nanotube coated fabric compositions for the purpose tuning the optical properties of fabric, in particular the optical transmittance, absorption, and reflectance in the visible, NIR and mid-IR ranges. The carbon nanotube coated fabrics of the present invention exhibit relatively uniform absorptivity and reflectivity of light across visible and IR spectral ranges and are ideal for use in stealth operations for counteracting night vision detection devices. The carbon nanotube coatings are thin, flexible coatings exhibiting high thermal and chemical stability, strong adhesion, low weight, and high tensile strength. In one embodiment, the composition includes an insulator layer for thermally isolating the CNT coating and establishing thermal equilibrium with the surrounding environment through the absorption of thermal IR emitted from hot objects. Processes for preparing the carbon nanotube coated fabrics are also described herein. | ||||||
| 54 | Mineral stains for wood and other substrates | US11131937 | 2005-05-17 | US20050283921A1 | 2005-12-29 | Stephen Auger |
| According to the invention, a metal salt and an oxygen source are applied to penetrate or impregnate a suitable substrate sequentially in effective amounts so as to react in contact with the substrate and produce a mineral compound fixed within the surface of the substrate. The inventive combination of a mutually compatible metal salt, oxygen source, and substrate brings about an in situ reaction, and modifies the substrate to bring about a lasting desired effect. The mineral compound that is produced according to the invention is linked to the substrate, is stable and long-lasting or permanent, and is immobilized or insolubilized in the substrate. The mineral compound is bound or contained within and on the surface of the substrate, so it may be said to be ingrained in the fibers or matrix of the substrate, or embedded within the substrate. The desired effect is preferably a color. A wide variety of metal salts may be used depending on the desired effect. The oxygen source is preferably a peroxide, and the substrate is preferably a cellulose product such as wood, cotton, or paper; leather; or masonry. The invention contemplates methods of treating substrates, treatment kits, and treated products. With wood products, the invention provides a water-based stain of low toxicity useful for soft woods. | ||||||
| 55 | Methods for producing imaged coated articles by using magnetic pigments | US09850421 | 2001-05-07 | US06808806B2 | 2004-10-26 | Roger W. Phillips; Charlotte R. LeGallee; Charles T. Markantes; Paul G. Coombs; Matthew R. Witzman |
| Methods and devices for producing images on coated articles are provided. The methods generally comprise applying a layer of magnetizable pigment coating in liquid form on a substrate, with the magnetizable pigment coating containing a plurality of magnetic non-spherical particles or flakes. A magnetic field is then applied to selected regions of the pigment coating while the coating is in liquid form, with the magnetic field altering the orientation of selected magnetic particles or flakes. Finally, the pigment coating is solidified, affixing the reoriented particles or flakes in a non-parallel position to the surface of the pigment coating to produce an image such as a three dimensional-like image on the surface of the coating. The pigment coating can contain various interference or non-interference magnetic particles or flakes, such as magnetic color shifting pigments. | ||||||
| 56 | Methods for producing imaged coated articles by using magnetic pigments | US10328509 | 2002-12-23 | US06759097B2 | 2004-07-06 | Roger W. Phillips; Charlotte R. LeGallee; Charles T. Markantes; Paul G. Coombs; Matthew R. Witzman |
| Methods and devices for producing images on coated articles are provided. The methods generally comprise applying a layer of magnetizable pigment coating in liquid form on a substrate, with the magnetizable pigment coating containing a plurality of magnetic non-spherical particles or flakes. A magnetic field is then applied to selected regions of the pigment coating while the coating is in liquid form, with the magnetic field altering the orientation of selected magnetic particles or flakes. Finally, the pigment coating is solidified, affixing the reoriented particles or flakes in a non-parallel position to the surface of the pigment coating to produce an image such as a three dimensional-like image on the surface of the coating. The pigment coating can contain various interference or non-interference magnetic particles or flakes, such as magnetic color shifting pigments. | ||||||
| 57 | Methods for producing imaged coated articles by using magnetic pigments | US10328509 | 2002-12-23 | US20030165637A1 | 2003-09-04 | Roger W. Phillips; Charlotte R. LeGallee; Charles T. Markantes; Paul G. Coombs; Matthew R. Witzman |
| Methods and devices for producing images on coated articles are provided. The methods generally comprise applying a layer of magnetizable pigment coating in liquid form on a substrate, with the magnetizable pigment coating containing a plurality of magnetic non-spherical particles or flakes. A magnetic field is then applied to selected regions of the pigment coating while the coating is in liquid form, with the magnetic field altering the orientation of selected magnetic particles or flakes. Finally, the pigment coating is solidified, affixing the reoriented particles or flakes in a non-parallel position to the surface of the pigment coating to produce an image such as a three dimensional-like image on the surface of the coating. The pigment coating can contain various interference or non-interference magnetic particles or flakes, such as magnetic color shifting pigments. | ||||||
| 58 | Method of treating fabric | US09715466 | 2000-11-17 | US06511705B1 | 2003-01-28 | Jean Claude Jetzer; Carolus Bernardus Petrus van Olphen |
| The invention relates to a method of treating fabric material which may be used for a window covering, for example. The fabric has a first finish on a first side provided by a first pigment having a first particle size and a second finish on the second side provided by a second pigment having a second particle size larger than the first particle size. The material may be produced by a method in which the first and second finishes are applied simultaneously by a single operation. | ||||||
| 59 | Methods for producing imaged coated articles by using magnetic pigments | US09850421 | 2001-05-07 | US20020182383A1 | 2002-12-05 | Roger W. Phillips; Charlotte R. LeGallee; Charles T. Markantes; Paul G. Coombs; Matthew R. Witzman |
| Methods and devices for producing images on coated articles are provided. The methods generally comprise applying a layer of magnetizable pigment coating in liquid form on a substrate, with the magnetizable pigment coating containing a plurality of magnetic non-spherical particles or flakes. A magnetic field is then applied to selected regions of the pigment coating while the coating is in liquid form, with the magnetic field altering the orientation of selected magnetic particles or flakes. Finally, the pigment coating is solidified, affixing the reoriented particles or flakes in a non-parallel position to the surface of the pigment coating to produce an image such as a three dimensional-like image on the surface of the coating. The pigment coating can contain various interference or non-interference magnetic particles or flakes, such as magnetic color shifting pigments. | ||||||
| 60 | Mineral stains for wood and other substrates | US09932976 | 2001-08-21 | US20020004951A1 | 2002-01-17 | Stephen B. Auger |
| According to the invention, a metal salt and an oxygen source are applied to penetrate or impregnate a suitable substrate sequentially in effective amounts so as to react in contact with the substrate and produce a mineral compound fixed within the surface of the substrate. The inventive combination of a mutually compatible metal salt, oxygen source, and substrate brings about an in situ reaction, and modifies the substrate to bring about a lasting desired effect. The mineral compound that is produced according to the invention is linked to the substrate, is stable and long-lasting or permanent, and is immobilized or insolubilized in the substrate. The mineral compound is bound or contained within and on the surface of the substrate, so it may be said to be ingrained in the fibers or matrix of the substrate, or embedded within the substrate. The desired effect is preferably a color. A wide variety of metal salts may be used depending on the desired effect. The oxygen source is preferably a peroxide, and the substrate is preferably a cellulose product such as wood, cotton, or paper; leather; or masonry. The invention contemplates methods of treating substrates, treatment kits, and treated products. With wood products, the invention provides a water-based stain of low toxicity useful for soft woods. | ||||||
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