| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Modular buildings and materials used in their construction | US10258194 | 2003-05-09 | US20030182886A1 | 2003-10-02 | Malcolm Parrish |
| A modular building comprising: a foundation floor having secured therein a plurality of anchor elements; a plurality of wall-retaining track elements adapted to engage wall panels of the building, the track elements being securable to the foundation floor so as to define the position of at least the load bearing walls of the building; wall panels locatable with respect to the track elements, each panel including at least one channel or duct formed therein parallel to a longitudinal axis thereof and at least one channel or duct formed therein disposed perpendicularly to and laterally of the longitudinal axis; and a plurality of securing members adapted to pass through and locatable within said channels or ducts, the securing members being anchored at each end thereof so as to maintain the panels in fixed relationship to one another. | ||||||
| 162 | Modular buildings, construction elements, methods and materials therefor | US10258195 | 2003-05-09 | US20030167703A1 | 2003-09-11 | Malcolm Parrish |
| A construction element such as a wall or roof panel for a building, the construction element being formed from a composite material comprising silica cenospheres and a resin, the resin binding the cenospheres into a solid mass and retains them Gin a desired shape defining the construction element A second composite material can be overlaid and bonded to at least a part of the surface of the construction element. The second composite material has a number of layers bonded together. Colouring agents and fire retardant materials can be included within the second composite material. | ||||||
| 163 | Methods of treating subterranean zones penetrated by well bores | US10122671 | 2002-04-15 | US20030083204A1 | 2003-05-01 | Jiten Chatterji; Roger S. Cromwell; Bobby J. King; D. Chad Brenneis; Dennis W. Gray; Ronald J. Crook; Shih-Ruey T. Chen; Valentino L. DeVito; Kevin W. Frederick; Kevin W. Smith; Randy J. Loeffler |
| The present invention provides methods of treating subterranean zones penetrated by well bores in primary well cementing operations, well completion operations, production stimulation treatments and the like. The methods are basically comprised of introducing into the subterranean zone an aqueous well treating fluid comprised of water and a water soluble polymer complex fluid loss control additive. | ||||||
| 164 | Elastic, Thixotropic Organo-Mineral Systems | US10183346 | 2002-06-28 | US20030073766A1 | 2003-04-17 | Harald Bode |
| A method is provided for the manufacture of elastic, fire resistant, organo-mineral systems based on water-glass in which, to the water-glass, compounds, having terminal amino groups are added, in which at least one free hydrogen atom on at least one amino group and at least one alkylene group interrupted by one oxygen and/or sulphur atom are present as well as the products and the two component systems which can be obtained therewith. The latter can be applied in mining for filling and/or the agglutination of anchors. | ||||||
| 165 | Device in a paper machine for transfer of the web from the former section to the press section | US09782328 | 2001-02-13 | US06533900B2 | 2003-03-18 | Janne Puustinen; Samppa Salminen; Pertti Heikkilä; Ari Puurtinen; Antti Poikolainen; Jorma Laapotti; Mika Viertola |
| A method in a paper machine for transferring a paper web from a wet wire in a former section to a pick-up fabric or an equivalent transfer fabric of a press section, including the steps of forming a pick-up point on the wet wire and separating an edge strip from at least one edge of the web prior to the pick-up point by means of at least one cutting device. The method further includes separating the web from the wet wire and passing the web onto the pick-up fabric at the pick-up point. The method also includes applying a pressure difference to the at least one edge strip through the wet wire or the pick-up fabric at or after the pick-up point to cause the at least one edge strip to either follow the wet wire or become separated from the pick-up fabric after the pick-up point and to be placed in a broke system arranged beneath the paper machine. | ||||||
| 166 | Halogen containing-polymer nanocomposite compositions, methods, and products employing such compositions | US10103562 | 2002-03-21 | US20020161101A1 | 2002-10-31 | David Carroll; John Ballato; Stephen Foulger; Richard Czerw; Dennis Smith; Hiren Shah; Earl Wagener |
| The disclosure provides compositions prepared by combining nanomaterials with a halide-containing polymer, thereby forming a combined polymer matrix having dispersed nanomaterials within the matrix. The nanomaterials may be carbon-based nanotubes, in some applications. A halide-containing monomer is combined with nanotubes, and then polymerized in some compositions. In other applications, a halide-containing polymer is solution processed with nanotubes to form useful compositions in the invention. Also disclosed are probes for near field detection of radiation. | ||||||
| 167 | Artificial stone | US10046410 | 2002-01-16 | US20020086122A1 | 2002-07-04 | Mieko Sakai |
| The following artificial stone having a deep color tone and a glaze and having a luminousness is provided at low costs. An artificial mixture in which a fine powder component of an inorganic material having a size of from 5 to 70 mesh is used, the sum of this fine powder component and a finely divided component of an inorganic material of 100 mesh-under is 89% by weight or more of the product and a resin component is 11% or less is struck and integrated into a cured slab which has been cured. | ||||||
| 168 | Method and device in a paper machine for transfer of the web from the former section to the press section | US09782328 | 2001-02-13 | US20010004007A1 | 2001-06-21 | Janne Puustinen; Samppa Salminen; Pertti Heikkila; Ari Puurtinen; Antti Poikolainen; Jorma Laapotti; Mika Viertola |
| A method in a paper machine for transferring a paper web from a wet wire in a former section to a pick-up fabric or an equivalent transfer fabric of a press section, including the steps of forming a pick-up point on the wet wire and separating an edge strip from at least one edge of the web prior to the pick-up point by means of at least one cutting device. The method further includes separating the web from the wet wire and passing the web onto the pick-up fabric at the pick-up point. The method also includes applying a pressure difference to the at least one edge strip through the wet wire or the pick-up fabric at or after the pick-up point to cause the at least one edge strip to either follow the wet wire or become separated from the pick-up fabric after the pick-up point and to be placed in a broke system arranged beneath the paper machine. | ||||||
| 169 | Method and device in a paper machine for transfer of the web from the former section to the press section | US09375220 | 1999-08-16 | US06214168B1 | 2001-04-10 | Janne Puustinen; Samppa Salminen; Pertti Heikkilä; Ari Puurtinen; Antti Poikolainen; Jorma Laapotti; Mika Viertola |
| A method in a paper machine for transferring a paper web from a wet wire in a former section to a pick-up fabric or an equivalent transfer fabric of a press section, including the steps of forming a pick-up point on the wet wire and separating an edge strip from at least one edge of the web prior to the pick-up point by means of at least one cutting device. The method further includes separating the web from the wet wire and passing the web onto the pick-up fabric at the pick-up point. The method also includes applying a pressure difference to the at least one edge strip through the wet wire or the pick-up fabric at or after the pick-up point to cause the at least one edge strip to either follow the wet wire or become separated from the pick-up fabric after the pick-up point and to be placed in a broke system arranged beneath the paper machine. | ||||||
| 170 | Cementing compositions, a method of making therefor, and a method for cementing wells | US09234951 | 1999-01-21 | US06171386B2 | 2001-01-09 | Freddie Lynne Sabins |
| A cement composition includes cement, water in an amount from about 30% to 200% by weight of cement, and an interpolymer latex in an amount from about 10% to 50% by weight of cement. The interpolymer latex includes at least one conjugated diene monomer having 4 to 8 carbon atoms in an amount from about 5% to 95% by weight of the interpolymer latex, at least one vinyl aromatic monomer having 8 to 12 carbon atoms in an amount from about 5% to 95% by weight of the interpolymer latex, and a copolymerizable functional monomer in an amount from about 0.5% to 50% by weight of the interpolymer latex. A method of making a cement composition involves placing the above ingredients in a suitable mixer well known to those of ordinary skill in the art and mixing the ingredients until they form the cement composition. A method for cementing a subterranean zone penetrated by a wellbore involves forming a cement composition according to the above method, pumping the cement composition into the subterranean zone to be cemented by way of the wellbore, and allowing the cement composition to set within the subterranean zone. | ||||||
| 171 | Remedial wellbore sealing with unsaturated monomer system | US233150 | 1994-04-25 | US5484020A | 1996-01-16 | Kenneth M. Cowan |
| A defective cemented annulus in a wellbore is repaired by injecting a water-soluble monomeric composition having polymerizable unsaturated groups. This allows repair of leaking cement jobs where the leakage occurs through very small imperfections. In accordance with the invention, a section of the casing above the area where formation fluid pressure may be entering is sealed off with packer devices, perforated or mill cut and a monomer solution is injected into the cemented annulus. | ||||||
| 172 | Dry mix-type joint compounds, compositions therefrom and methods for filling drywall joints with same | US932648 | 1992-08-20 | US5277712A | 1994-01-11 | John D. McInnis |
| A dry mix-type, drywall panel joint compound is produced which comprises (a) a fine plaster which is applied to a joint formed between adjacent drywall panels in the plastic state to form a hardened material, (b) a material which imparts internal strength and workability to the joint compound, (c) a material for retaining water and inhibits shrinkage of the joint compound within the joint formed between adjacent drywall panels, and (d) a set time control agent. The more preferred joint compound formulation of this invention includes (a) stucco, (b) methyl cellulose, and (c) perlite. A longer set time version of the subject dry mix-type, drywall panel joint compound can also be provided which comprises, in addition to (a)-(d), (e) at least one water absorption agent, (f) at least one shrinkage and cracking inhibitor, (g) at least one adhesive strengthening agent, and (h) an alkaline material for raising the pH of material. The more preferred longer set time joint compound formulation comprises (e) mica, (f) bentonite clay, (g) vinyl acetate and/or vinyl alcohol, and (h) calcium hydroxide. | ||||||
| 173 | Method and apparatus for extrusion molding fiber-and cement-containing W/O type emulsion | US39007 | 1987-04-15 | US5059371A | 1991-10-22 | Takasi Saheki; Hideaki Matsuda |
| In the case of extruding a W/O type emulsion having a high viscosity obtained by stirring a mixture of a vinyl monomer solution composed of a vinyl monomer which is water insoluble and in a liquid state at normal temperature, a surface active agent having a hydrophilic-lipophylic balance of 3 to 6, and a polymerization catalyst with water, cement, and synthetic fibers through a die, at least one rectifying plate having a given form is disposed in the die near the outlet thereof to direct the synthetic fibers in the W/O type emulsion to the extruding direction.When the tabular plate obtained by extrusion-molding the W/O type emulsion by the method of this invention is hardened and dried, a light-weight and high-strength plastic concrete suitable for building materials is obtained. | ||||||
| 174 | Cyanoacrylate composition | US15027302 | 2014-10-22 | US10144851B2 | 2018-12-04 | Ciaran McArdle; Arnau Pejoan Jiménez; Juan Andrés López Maeso; Stefano Gherardi |
| The present invention relates to a cyanoacrylate composition having a heterogeneous curing initiator which is a hydrated calcium silicate. The composition is suitable for repairing and filling depressions, cracks, or holes in a substrate or between substrates to be bonded. It also relates to an adhesive comprising said composition, to a syringe containing it, to a method for bonding substrates, to the use of said composition, and to the use of said hydrated calcium silicate as curing agent for cyanoacrylate compositions. | ||||||
| 175 | Dissolvable cementitious composite ingredient packet | US15233158 | 2016-08-10 | US09650300B2 | 2017-05-16 | Aaron K. Amstutz |
| A packaged composition may include a package made from a water-soluble polymer material. The package may be configured to contain a cementitious composition. The cementitious composition may include water in the form of microencapsulated water spheres and high alumina cement. | ||||||
| 176 | Method of manufacturing a molded article made from a macro defect free cementitious composition | US14610508 | 2015-01-30 | US09586865B2 | 2017-03-07 | Aaron K. Amstutz |
| A cementitious composition may include polyvinyl alcohol, high alumina cement, water, a metallic coagent, a peroxide crosslinking initiator, and an organic acid retardant. A molded article may be manufactured from the cementitious composition by preparing a hydrogel pre-polymer blend of saponified polyvinyl alcohol acetate (PVAA) with greater than or equal to approximately 85% saponified PVAA, and water, mixing the hydrogel pre-polymer blend with high alumina cement (HAC) using a high shear mixing process, mixing in a metallic coagent and a peroxide crosslinking initiator, mixing in an organic acid retardant, and hot press molding the mixture. | ||||||
| 177 | CYANOACRYLATE COMPOSITION | US15027302 | 2014-10-22 | US20160251548A1 | 2016-09-01 | Ciaran MCARDLE; Arnau PEJOAN JIMÉNEZ; Juan Andrés LÓPEZ MAESO; Stefano GHERARDI |
| The present invention relates to a cyanoacrylate composition having a heterogeneous curing initiator which is a hydrated calcium silicate. The composition is suitable for repairing and filling depressions, cracks, or holes in a substrate or between substrates to be bonded. It also relates to an adhesive comprising said composition, to a syringe containing it, to a method for bonding substrates, to the use of said composition, and to the use of said hydrated calcium silicate as curing agent for cyanoacrylate compositions. | ||||||
| 178 | MACRO DEFECT FREE CEMENT WITH IMPROVED MOISTURE RESISTANCE | US14610469 | 2015-01-30 | US20160221871A1 | 2016-08-04 | Aaron K Amstutz |
| A cementitious composition may include polyvinyl alcohol, high alumina cement, water, a metallic coagent, a peroxide crosslinking initiator, and an organic acid retardant. A molded article may be manufactured from the cementitious composition by preparing a hydrogel pre-polymer blend of saponified polyvinyl alcohol acetate (PVAA) with greater than or equal to approximately 85% saponified PVAA, and water, mixing the hydrogel pre-polymer blend with high alumina cement (HAC) using a high shear mixing process, mixing in a metallic coagent and a peroxide crosslinking initiator, mixing in an organic acid retardant, and hot press molding the mixture. | ||||||
| 179 | POLYMERIC COMPOSITIONS FOR DOWNHOLE APPLICATIONS | US14782547 | 2014-04-02 | US20160032169A1 | 2016-02-04 | Andrew Chew; Guido De Stefano |
| Methods for treating a wellbore and compositions used for same are provided that include emplacing a polymer-forming composition in the wellbore, and initiating polymerization of the polymer-forming composition to form a polymerized material in the selected region of the wellbore. In some aspects, polymeric compositions provided may also be useful for isolating pressure differentials downhole. | ||||||
| 180 | Well Treatment | US14624396 | 2015-02-17 | US20150159080A1 | 2015-06-11 | Jesse C. Lee; Stephane Boulard; Nikhil Shindgikar; Slaheddine Kefi |
| The following describes a novel and alternative mechanism in regards to releasing reactive chemicals. Namely, utilizing shells containing multiple emulsions that can be blended with the base fluids, and then react with said base fluid upon exposure to a trigger e.g. high shear and/or elongation flow, therefore plugging even large fractures. Such gelling lost circulation material allows to obtain a reliable carrier and fast reaction when triggered. | ||||||
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