Class / Patent application number | Description | Number of patent applications / Date published |
428312400 | Of hydraulic-setting material | 11 |
20080286553 | Building Componet and Method of Reinforcing a Building Structure - The building component comprises a central structure covered by a layer of cement mortar in which a reinforcement structure formed of poly[benz(1,2-D:5,4-D′)bisoxazole-2,6-diyl-1,4-phenylen] fibre is embedded. The method consists of forming a layer of cement mortar on the structure to be reinforced and embedding in the cement mortar layer a reinforcement structure formed of poly[benz (1,2-D:5,4-D′)bisoxazole-2,6-diyl-1,4-phenylen] fibre. The mortar further comprises unsaturated copolymer resins, fluidifying and thixotropic additives. | 11-20-2008 |
20100112329 | POROUS CEMENT ROAD SURFACE MADE FROM POLYMER MODIFIED CEMENT AND A CONSTRUCTION METHOD THEREOF - A porous concrete road surface structure made from polymer modified cement and a construction method thereof are disclosed. The structure successively comprises a bottom layer, a bonding layer, a porous concrete layer and a surface treatment layer. The bonding layer is located on the bottom layer, and the porous concrete layer on the bonding layer is prepared through paving, leveling and jolting a composition mixed from broken stone, sand and a slurry mixture of polymer modified cement. The addition of polymer promotes bonding of granular materials with the slurry mixture tightly, the use of the bonding layer makes the road surface structure and the bottom layer form an integral body, and the road surface structure has high strength, good crack resistance, water resistance, ageing resistance and corrosion resistance; the use of an intermittent or single graded of particles results in large pores, makes the road surface water-penetrating, decreases noise and amount of the polymer; and, the surface treatment can improve markedly surface properties and its use according to the application can make the porous concrete layer has rigid or flexible characteristic. The porous concrete road surface can be paved, leveled and jolted by paving machine or manual labor. | 05-06-2010 |
20100112330 | METHOD FOR PRODUCTION OF POROUS CERAMIC MATERIAL - The invention provides a method of producing a porous ceramics material. The method comprises preparing a slurry by dispersing a ceramics raw material in a medium, filling the slurry in a container, inserting the container in a given direction into a cooling medium having a temperature not higher than the freezing point of the slurry such that the slurry freezes unidirectionally from one end side, drying the frozen slurry to give a green body, and firing the green body. | 05-06-2010 |
20100203317 | GYPSUM BASED PANEL AND METHOD FOR MAKING GYPSUM BASED PANEL - A method of forming a gypsum-based panel product including the steps of: mixing calcined gypsum, water, a foaming agent and a core strengthening agent to form a foamed slurry; depositing the slurry; shaping the slurry to form a board having a core and core surfaces, optionally sandwiched between sheets of liner; and allowing the core to set, and drying the board, wherein the strengthening agent is dextrin, used in an amount not less than 0.1% by weight, based on the amount of calcined gypsum, so that, after drying, there is provided a strengthening dispersion of dextrin throughout the core. Less than 5% dextrin in preferred. | 08-12-2010 |
20120219785 | LIGHTWEIGHT, REDUCED DENSITY FIRE RATED GYPSUM PANELS - A reduced weight, reduced density gypsum panel that includes high expansion vermiculite with fire resistance capabilities that are at least comparable to (if not better than) commercial fire rated gypsum panels with a much greater gypsum content, weight and density. | 08-30-2012 |
20120237756 | GYPSUM SLURRIES AND BOARDS AND METHODS OF MAKING THE SAME - A slurry for manufacturing gypsum board comprises calcined gypsum, water, a foaming agent, and a coalescing agent. The foaming agent imparts a plurality of bubbles in the slurry. Typically, a foam is pre-generated with the foaming agent and the foam is used to form the slurry such that the foam imparts the plurality of bubbles in the slurry. The coalescing agent coalesces the plurality of bubbles imparted by the foam. Typically, the coalescing agent coalesces a plurality of small and partially joined bubbles imparted by the foam to create larger and more discrete bubbles. A gypsum board and method of forming the slurry and the gypsum board are also disclosed. The gypsum board comprises a gypsum layer formed from the slurry. The gypsum layer defines a plurality of bubbles dispersed therein, which are imparted by the foam and coalescing agent of the slurry. | 09-20-2012 |
20130280518 | BUILDING MATERIAL AND BUILDING SYSTEM ELEMENT AS WELL AS METHOD OF PRODUCTION THEREOF - The invention relates to a building material (M | 10-24-2013 |
20130316163 | Moisture-Resistant Gypsum Boards And Slurries For Making Same - A gypsum board comprises a cover sheet and a gypsum layer disposed on the cover sheet. The gypsum layer comprises the reaction product of an isocyanate, water, and stucco. The isocyanate increases the moisture resistance of the gypsum board. A method of manufacturing the gypsum board comprises the steps of combining the isocyanate, the water, and the stucco to form a slurry, and applying the slurry to a cover sheet to form the gypsum layer on the cover sheet. | 11-28-2013 |
20140272376 | PARTICLE STABILIZED FOAM, AND SLURRIES, PRODUCT, AND METHODS RELATED THERETO - Disclosed are cementitious product, as well as cementitious slurry, and method of forming the product. To reduce density in the cementitious product, foam is included in the slurry and in the method of forming the product. The slurry includes cementitious particles, water, and air bubbles such as from compressed air. Instead of using detergent chemistry at the gas/water interface of bubbles, the present invention uses a surface modifying agent for the cementitious particles in the slurry. The modified particles act to produce stable foam in the slurry. As an example mode of introduction, the surface modifier can be added (e.g., as solid or solution) directly into a bulk cementitious slurry that forms the product. As another example, the surface modifier can be added in a separate solution with water, air bubbles, and cementitious particles that serve as additive to the main cementitious slurry, where the separate solution is then added to the main cementitious slurry. | 09-18-2014 |
20150056437 | AERATED COMPOSITE MATERIALS, METHODS OF PRODUCTION AND USES THEREOF - The invention provides novel aerated composite materials that possess excellent physical and performance characteristics of aerated concretes, and methods of production and uses thereof. These composite materials can be readily produced from widely available, low cost raw materials by a process suitable for large-scale production with improved energy consumption, desirable carbon footprint and minimal environmental impact. | 02-26-2015 |
20150086773 | AERATED FIBER CEMENT BUILDING PRODUCTS AND METHODS OF MAKING THE SAME - Disclosed herein are low density fiber cement articles, such as fiber cement building panels and sheets, comprised of multiple overlaying fiber cement substrate layers having small and uniform entrained air pockets and low density fillers distributed throughout. The combination of entrained air pockets and low density fillers provide a low density fiber cement matrix with physical and mechanical properties similar to comparable low density fiber cement matrix without entrained air pockets. | 03-26-2015 |