子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | High SRI systems for cementitious applications | US12373507 | 2009-01-09 | US08366824B2 | 2013-02-05 | Stanley G. Stratton; Phillip J. Arnold; James K. Crawford; Pritam S. Dhaliwal; Martin Ellis Wild |
| High SRI cementitious systems comprising integral concrete coloring admixtures, toppings, dry-shake hardeners, and other cementitious systems are provided. The high-SRI cementitious systems comprise one or more IR reflective pigments and other components to make-up the cementitious system, depending on the application. The high-SRI cementitious systems of the invention may be in the form of mixtures which increase the total solar reflectivity (TSR or albedo) and the Solar Reflectance Index (SRI) of concrete. The high-SRI cementitious systems may be toppings mixed with water for application to existing concrete surfaces, dry-shake hardeners for application to freshly-placed plastic concrete, or the IR reflective pigments may be mixed into integrally colored concrete in various forms, such as conventional cast-in-place concrete, lightweight concrete, pervious concrete and concrete building panels, pavers or masonry units. The topping and dry-shake hardener formulations of the invention may further comprise one or more of cementitious binder(s), graded aggregates, super-plasticizers, one or more pigments selected for improving infrared reflectivity and color composition, and/or optionally other additives, such as dry redispersible polymers or fillers to provide decorative and LEED compliant, highly durable (sustainable) concrete hardscapes and other decorative concrete. | ||||||
| 182 | High SRI Systems For Cementitious Applications | US13568364 | 2012-08-07 | US20130019781A1 | 2013-01-24 | Stanley G. Stratton; Phillip J. Arnold; James K. Crawford; Pritam S. Dhaliwal; Martin Ellis Wild |
| High SRI cementitious systems comprising integral concrete coloring admixtures, toppings, dry-shake hardeners, and other cementitious systems are provided. The high-SRI cementitious systems comprise one or more IR reflective pigments and other components to make-up the cementitious system, depending on the application. The high-SRI cementitious systems of the invention may be in the form of mixtures which increase the total solar reflectivity (TSR or albedo) and the Solar Reflectance Index (SRI) of concrete. The high-SRI cementitious systems may be toppings mixed with water for application to existing concrete surfaces, dry-shake hardeners for application to freshly-placed plastic concrete, or the IR reflective pigments may be mixed into integrally colored concrete in various forms, such as conventional cast-in-place concrete, lightweight concrete, pervious concrete and concrete building panels, pavers or masonry units. | ||||||
| 183 | METHODS FOR TREATING AN INORGANIC SLURRY | US13586012 | 2012-08-15 | US20120309718A1 | 2012-12-06 | Christopher Raymond JONES |
| A method for treating an inorganic slurry to preserve the slurry against bacterial contamination, including (I) providing a slurry in a substantially homogeneous phase, and then (II) adding to the slurry an effective amount of a composition containing: (a) a tetrakis(hydroxyorgano)phosphonium salt selected from the group consisting of tetrakis (hydroxymethyl) phosphonium sulphate, tetrakis (hydroxymethyl) phosphonium chloride, tetrakis (hydroxymethyl) phosphonium phosphate, tetrakis (hydroxymethyl) phosphonium nitrate and tetrakis (hydroxymethyl) phosphonium oxalate; and (b) a dispersant selected from the group consisting of (i) a phosphonated compound containing at least one tertiary nitrogen atom and (ii) a homopolymer of an unsaturated acid; and (III) preserving the slurry against bacterial contamination, whilst avoiding instantaneous heterogeneous thickening of the slurry due to the tetrakis (hydroxyorgano) phosphonium salt. | ||||||
| 184 | High SRI cementitious systems for colored concrete | US12883098 | 2010-09-15 | US08157910B2 | 2012-04-17 | Stanley G. Stratton; Phillip J. Arnold; James K. Crawford; Pritam S. Dhaliwai |
| IR reflective cementitious systems comprising one or more IR reflective pigments are provided. The cementitious systems of the invention may be in the form of mixtures which increase the total solar reflectivity (TSR or albedo) and the Solar Reflectance Index (SRI) of concrete are provided. The cementitious systems are infrared reflective and may be toppings mixed with water for application to existing concrete surfaces, or dry-shake hardeners for application to freshly-placed plastic concrete. The formulations of the invention utilize one or more of cementitious binder(s), graded aggregates, super-plasticizers, one or more pigments selected for improving infrared reflectivity and color composition, and/or optionally other additives, such as dry redispersible polymers or fillers to provide decorative and LEED compliant, highly durable (sustainable) concrete hardscapes and other decorative concrete. | ||||||
| 185 | AMINE SACRIFICIAL AGENTS AND METHODS AND PRODUCTS USING SAME | US13329782 | 2011-12-19 | US20120085264A1 | 2012-04-12 | Zhaozhou Zhang; Russell L. Hill; Brian Shaw |
| A method of producing cementitious mixtures containing fly ash as one of the cementitious components, under air entrainment conditions is described. The method involves forming a mixture comprising water, cement, fly ash, optionally other cementitious materials, aggregate, conventional chemical admixtures, and an air entrainment agent and agitating the mixture to entrain air therein. Additionally, at least one amine sacrificial agent is included in the mixture. The cementitious mixtures and hardened concretes resulting from the method and fly ash treated with sacrificial agent, or air entrainment agent/sacrificial agent combinations, are also described. | ||||||
| 186 | Method for coloring building materials using a cationic pigment dispersion | US12778366 | 2010-05-12 | US07999017B2 | 2011-08-16 | Hans Rasmusen; Jorn R. Thorsson; James E. Moore; Charles W. Perry; Joseph LaBazzo, Sr. |
| A cationic dispersion which includes at least one pigment, water, and at least one quaternary salt of a styrene maleimide imide resin in an amount effective to disperse the organic pigment. A method for preparing the cationic dispersion includes (i) mixing, at 500 to 10,000 rpm, at least one pigment; water; and either (a) at least one a quaternary salt of a styrene maleimide imide resin or (b) at least one styrene maleimide imide resin in combination with at least one weak acid, thereby forming a dispersion premix; (ii) milling the dispersion premix in a mixer filled with ceramic, metal or glass beads for a period of time sufficient to reduce pigment agglomerates to primary particles, thereby forming a non-standardized dispersion; and (iii) standardizing the dispersion against a color standard by adding water. The resulting cationic dispersion exhibits good alkali resistance and lightfastness, and can be used to integrally color concrete and other building materials. | ||||||
| 187 | BIOMASS-DERIVED GRINDING AIDS | US13035164 | 2011-02-25 | US20110146540A1 | 2011-06-23 | Leslie A. Jardine; Charlotte Porteneuve; Gerard Blond |
| Compositions and methods for increasing grinding efficiency of cement, cement clinker, raw materials for cement, and other inorganic particles. Use of biomass-derived polyols such as diols, triols, or mixtures thereof, optionally with a conventional grinding aid, cement quality improver, and/or hexavalent chromium reducer, are believed to provide less risk of sludging when compared to glycerides obtained from fossil fuel sources. | ||||||
| 188 | HIGH SRI CEMENTITIOUS SYSTEMS FOR COLORED CONCRETE | US12883098 | 2010-09-15 | US20110000401A1 | 2011-01-06 | Stanley G. Stratton; Phillip J. Arnold; James K. Crawford; Pritam S. Dhaliwai |
| IR reflective cementitious systems comprising one or more IR reflective pigments are provided. The cementitious systems of the invention may be in the form of mixtures which increase the total solar reflectivity (TSR or albedo) and the Solar Reflectance Index (SRI) of concrete are provided. The cementitious systems are infrared reflective and may be toppings mixed with water for application to existing concrete surfaces, or dry-shake hardeners for application to freshly-placed plastic concrete. The formulations of the invention utilize one or more of cementitious binder(s), graded aggregates, super-plasticizers, one or more pigments selected for improving infrared reflectivity and color composition, and/or optionally other additives, such as dry redispersible polymers or fillers to provide decorative and LEED compliant, highly durable (sustainable) concrete hardscapes and other decorative concrete. | ||||||
| 189 | High SRI cementitious systems for colored concrete | US12114452 | 2008-05-02 | US07815728B2 | 2010-10-19 | Stanley G. Stratton; Phillip J. Arnold; James K. Crawford; Pritam S. Dhaliwal |
| IR reflective cementitious systems comprising one or more IR reflective pigments are provided. The cementitious systems of the invention may be in the form of mixtures which increase the total solar reflectivity (TSR or albedo) and the Solar Reflectance Index (SRI) of concrete are provided. The cementitious systems are infrared reflective and may be toppings mixed with water for application to existing concrete surfaces, or dry-shake hardeners for application to freshly-placed plastic concrete. The formulations of the invention utilize one or more of cementitious binder(s), graded aggregates, super-plasticizers, one or more pigments selected for improving infrared reflectivity and color composition, and/or optionally other additives, such as dry redispersible polymers or fillers to provide decorative and LEED compliant, highly durable (sustainable) concrete hardscapes and other decorative concrete. | ||||||
| 190 | HIGH SRI CEMENTITIOUS SYSTEMS FOR COLORED CONCRETE | US12114452 | 2008-05-02 | US20090272297A1 | 2009-11-05 | Stanley G. Stratton; Phillip J. Arnold; James K. Crawford; Pritam S. Dhaliwal |
| IR reflective cementitious systems comprising one or more IR reflective pigments are provided. The cementitious systems of the invention may be in the form of mixtures which increase the total solar reflectivity (TSR or albedo) and the Solar Reflectance Index (SRI) of concrete are provided. The cementitious systems are infrared reflective and may be toppings mixed with water for application to existing concrete surfaces, or dry-shake hardeners for application to freshly-placed plastic concrete. The formulations of the invention utilize one or more of cementitious binder(s), graded aggregates, super-plasticizers, one or more pigments selected for improving infrared reflectivity and color composition, and/or optionally other additives, such as dry redispersible polymers or fillers to provide decorative and LEED compliant, highly durable (sustainable) concrete hardscapes and other decorative concrete. | ||||||
| 191 | Biomass-derived grinding aids | US11434018 | 2006-05-15 | US20060272554A1 | 2006-12-07 | Leslie Jardine; Charlotte Porteneuve; Gerard Blond |
| Compositions and methods for increasing grinding efficiency of cement, cement clinker, raw materials for cement, and other inorganic particles. Use of biomass-derived polyols such as diols, triols, or mixtures thereof, optionally with a conventional grinding aid, cement quality improver, and/or hexavalent chromium reducer, are believed to provide less risk of sludging when compared to glycerides obtained from fossil fuel sources. | ||||||
| 192 | Uv-stabilised particles | US10518464 | 2003-06-23 | US20060155007A1 | 2006-07-13 | Adalbert Huber |
| The present invention relates to UV-stabilised particles which are distinguished by the fact that they reflect or absorb light having wavelengths of from 290 to 500 nm. The invention furthermore relates to a process for the production of the particles according to the invention and to the use thereof in surface coatings, water-borne coatings, powder coatings, paints, printing inks, security printing inks, plastics, concrete, in cosmetic formulations, in agricultural sheeting and tent awnings, for the laser marking of papers and plastics, as light protection, and for the preparation of pigment compositions and dry preparations. | ||||||
| 193 | Treating slurries | US10542432 | 2004-01-12 | US20060102563A1 | 2006-05-18 | Christopher Jones |
| This invention relates to a composition for treating inorganic slurries and to a method of treating inorganic slurries with the aforesaid composition so as to maintain the slurries in a substantially homogeneous phase. The composition comprises a THP+ salt and a dispersant selected from the group consisting of: (i) phosphonated compound containing at least one tertiary nitrogen atom; (ii) phosphonated oligomers of unsaturated acids; (iii) homopolymers of unsaturated acids; and (iv) Polyphosphates The THP+ salt is preferably THPS | ||||||
| 194 | Photocatalytic granular mixture for mortar and concrete and its use | US10677682 | 2003-10-03 | US20040101683A1 | 2004-05-27 | Laurent Bonafous; Luigi Cassar; Pierre Cassat; Pierre Colombet; Laurent Guillot; Francine Colombet |
| The photocatalytic granular mixture for mortar and concrete includes a photocatalyst in the form of at least two granular classes with different B.E.T. specific surfaces. It has a photocatalytic activity greater than that of a monodisperse photocatalyst with a single range of B.E.T. specific surface, and thus permits, in association with a conventional hydraulic binder, to obtain construction and repair materials whose aptitude for self cleaning, for the reduction of odors, and for the depollution of ambient air, is considerably improved. | ||||||
| 195 | Portland cement compositions | US38434741 | 1941-03-20 | US2307485A | 1943-01-05 | BOOTH ROBERT B |
| 196 | Asbestos article and method of forming the same | US58251231 | 1931-12-21 | US1956793A | 1934-05-01 | HARRY GILLETT |
| 197 | Production of colored effects in cementitious and building materials | US16707427 | 1927-02-09 | US1856366A | 1932-05-03 | NOEL WHITE GERALD |
| 198 | Shingle composition | US71938124 | 1924-06-11 | US1611784A | 1926-12-21 | SCHMUTTE JACOB A |
| 199 | AMINE SACRIFICIAL AGENTS AND METHODS AND PRODUCTS USING SAME | PCT/US2010033765 | 2010-05-05 | WO2010129700A3 | 2011-03-31 | ZHANG ZHAUZHOU; HILL RUSSELL L; SHAW BRIAN |
| A method of producing cementitious mixtures containing fly ash as one of the cementitious components, under air entrainment conditions is described. The method involves forming a mixture comprising water, cement, fly ash, optionally other cementitious materials, aggregate, conventional chemical admixtures, and an air entrainment agent and agitating the mixture to entrain air therein. Additionally, at least one amine sacrificial agent is included in the mixture. The cementitious mixtures and hardened concretes resulting from the method and fly ash treated with sacrificial agent, or air entrainment agent/sacrificial agent combinations, are also described. | ||||||
| 200 | BIOMASS-DERIVED GRINDING AIDS | PCT/US2006018607 | 2006-05-15 | WO2006132762A3 | 2007-09-27 | JARDINE LESLIE A; PORTENEUVE CHARLOTTE; BLOND GERARD |
| Compositions and methods for increasing grinding efficiency of cement, cement clinker, raw materials for cement, and other inorganic particles. Use of biomass-derived polyols such as diols, triols, or mixtures thereof, optionally with a conventional grinding aid, cement quality improver, and/or hexavalent chromium reducer, are believed to provide less risk of sludging when compared to glycerides obtained from fossil fuel sources. | ||||||
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