141 |
Artificial stone wall panel |
US10521190 |
2003-07-15 |
US07371441B2 |
2008-05-13 |
Mieko Sakai; Kenichiro Saito |
An artificial stone wall panel comprises: an artificial stone, composition of which comprises an inorganic fine powder component with a size of from 9.5 mm to 180 μm, an inorganic finely divided component with a size of less than 180 μm, and a resin component in an amount of from 7 to 30% by weight based on a total artificial stone composition, with a weight ratio of the inorganic fine powder component to the inorganic finely divided component (inorganic fine powder component:inorganic finely divided component) being in a range of from 1:1 to 5:1; and a support for installing the artificial stone onto a wall surface, embedded in the artificial stone, wherein part of the support is exposed at a back surface or edge surface of the artificial stone. This artificial stone wall panel is realized by mold-integrating an artificial stone and structure for installing such artificial stone to an external wall surface, and may be used as an external wall material with excellent design having clear contrast and natural texture. |
142 |
Colloidal sealant composition |
US11540553 |
2006-10-02 |
US20080081217A1 |
2008-04-03 |
Robert B. Bowers |
The present invention relates to the addition of biocidal agents to colloidal silicate coating compositions, said compositions being useful for coating structures prepared from Portland cement compositions. |
143 |
Composite mineral counter tops |
US11368351 |
2006-03-03 |
US20060196393A1 |
2006-09-07 |
Buddy Rhodes |
This invention provides compositions and methods for making mineral composites products. The compositions can include constituents such as, cement, sand, aggregate, clay, perlite, and marble dust. The methods can include preparation of a dry particulate composition, hydration of the composition, forming the hydrated composition into the general shape of the desired product and curing the composition into a substantially solid product. |
144 |
Durable building article and method of making same |
US11078651 |
2005-03-11 |
US20050284339A1 |
2005-12-29 |
Greg Brunton; Ihor Hinczak; Chongjun Jiang; Marcus Kuizenga; Peter Pagones; Brian Sloane; Huaijun Wang |
A durable, nailable, lightweight and fire resistant fiber cement article that can be a cost-effective substitute for conventional building materials is provided. The fiber cement article can be profiled to resemble a roofing article such as a wood shake or slate. The fiber cement article incorporates a hydrophobe and a viscosity enhancing agent that are each selected to control the rate of hydration of the binder. The fiber cement article is durable, is walkable and nailable without cracking during installation and maintains walkablilty after exposure in service. |
145 |
Artificial stone and formation therefor |
US10998037 |
2004-11-29 |
US20050230663A1 |
2005-10-20 |
Sumiyo Yamanashi; Mieko Sakai; Kenichiro Saito |
To provide a further improvement of luminescence performance such as an extension of a continuation time of a light accumulation luminescence or aluminescence by ultraviolet rays, by a control of the structure of the artificial stone. A noctilucent/luminescent artificial stone including a transparent aggregate, at least one kind of a light accumulation material and a luminescent material by ultraviolet rays along with a resin is characterized by that the luminescence performance of the artificial stone is higher than that of the included light accumulation material or luminescent material by ultraviolet rays per se. |
146 |
Pigment paste for concrete and method for making the same |
US10877070 |
2004-06-24 |
US20050045068A1 |
2005-03-03 |
Semyon Shimanovich |
A pigment paste and a method for making the same that alters the appearance of concrete such that, after the concrete sets, it resembles natural stone (e.g., marble, granite, sandstone, bluestone, etc.) without separately applying a finish of any kind to the concrete are provided. The pigment paste preferably comprises a filler, a pigment, an anti-foaming agent, a surfactant, and water. In some embodiments, the surfactant is a water reducing admixture. A concrete compound having a finish resembling natural stone is made by combining the pigment paste with a concrete mix, which includes a cementitious material with aggregate and water, and a chemical admixture. Upon adding the pigment paste and mixing it, the cementitious material is allowed to set, where, after it sets, the concrete has a finish resembling natural stone. |
147 |
Thermosetting composite material particularly for manufacturing sanitary articles and kitchen sinks |
US10784981 |
2004-02-25 |
US20040249050A1 |
2004-12-09 |
Giancarlo
Traversa; Giorgio
Davide
Traversa |
A thermosetting composite material, particularly for manufacturing sanitary articles and kitchen sinks, comprising a polymeric matrix that incorporates a filler material distributed in the matrix, the filler material being constituted by glass particles, the preponderant fraction of which has a size distribution from 0.2 to 1.5 mm. |
148 |
Artificial stone and formation therefor |
US09968797 |
2001-10-03 |
US20030087074A1 |
2003-05-08 |
Sumiyo
Yamanashi; Mieko
Sakai; Kenichiro
Saito |
To provide a further improvement of luminescence performance such as an extension of a continuation time of a light accumulation luminescence or a luminescence by ultraviolet rays, by a control of the structure of the artificial stone. A noctilucent/luminescent artificial stone including a transparent aggregate, at least one kind of a light accumulation material and a luminescent material by ultraviolet rays along with a resin is characterized by that the luminescence performance of the artificial stone is higher than that of the included light accumulation material or luminescent material by ultraviolet rays per se. |
149 |
Molded simulated stone product and method |
US110043 |
1998-07-02 |
US06054080A |
2000-04-25 |
John J. Sheahan; Brian W. Sheahan; Kenneth R. Augst, Jr. |
An inexpensive, lightweight, strong and durable casting that has a surface appearance simulating carved stone, and is especially adapted for use as a transition between a brick or stone wall and window and door openings. Further, it provides architectural detail to building constructions, especially as a surround for window and door openings. The casting is produced from a mixture of graded aggregates and a resin binder, combined in predetermined proportions to make a soupy mixture that is cast in a mold. The mold is vibrated to cause migration of air bubbles away from the surface of the molded product, and to cause realignment and orientation of the aggregate materials in a way to enhance the structure and surface density of the product. After the casting has set, it is removed from the mold and cured and the surface is sandblasted to erode away some of the resin binder and portions of the aggregate at the surface to produce an appearance that is an accurate simulation of carved stone. The cast product, when used as a trim component for architectural detail in building construction, may have shaped portions to accommodate straight runs of brick or stone work, minimizing the need for cutting or shaping the bricks or stones to fit around the casting. |
150 |
Mosaic reproductions on a tile substrate |
US826868 |
1997-04-11 |
US5866225A |
1999-02-02 |
John W. Crossley |
Disclosed herein is an improved method of producing a mosaic design on the surface of a ceramic tile substrate and the resultant mosaic tile article manufactured thereby. A selected glaze coating is initially applied to the tile substrate upon specific surface areas predetermined for coloration as part of the mosaic design with the glaze coating being varied in hardness dependent upon the intended architectural or other use of the tile. After firing the selectively glazed tile substrate to harden the coating, a ceramic coloration pattern of the mosaic design is applied over the glaze coating using direct printing or decal transfer to produce a decorated tile. After re-firing the decorate tile, a resist medium is further applied over the colored and glazed areas as a mask, leaving the intermediate areas of the tile substrate unmasked. After curing of the resist medium, conventional sandblasting or other engraving techniques are employed to remove substrate material from the unmasked areas to a desired depth thereby creating realistic grout line spaces intermediate of the colored areas. The excess resist medium is then removed from the surface of the substrate and the entire surface of the resultant mosaic tile article re-coated with a clear protective glaze, as may be necessary for certain architectural applications prior to use. |
151 |
Mortar composition |
US700531 |
1996-08-28 |
US5730797A |
1998-03-24 |
John Anthony Parrish; Robert John Smith; Thomas Frederick Smith |
A mortar composition for molding, casting or rendering purposes includes: (a) mixture comprising 1.5 to 8 parts by volume of powdered stone and one part by volume of powdered mica based on the total parts by volume of the composition; and (b) a binder therefore. The binder is preferably a hydraulic cement such as Portland cement. An artificial stone may be produced by coating a substrate, such as concrete, with the mortar composition. |
152 |
Method of simulating natural desert varnish |
US572194 |
1990-08-23 |
US5308646A |
1994-05-03 |
Carleton B. Moore |
Means, methods and compositions for simulating natural desert varnish. A solution containing soluble metallic acetate salts selected from the group consisting of iron (II), manganese(II) and mixtures thereof and indigenous clay when appropriate is sprayed on distressed or abused natural or artificial rock to produce a preselected patina which is compatible to the indigenous area. |
153 |
硬化性オルガノポリシロキサン組成物 |
JP2017503565 |
2015-07-14 |
JP6352523B2 |
2018-07-04 |
ダニエル、シルトバッハ; デトレフ、オステンドルフ; マルコ、プラッセ; ウーベ、シャイム |
|
154 |
硬化性オルガノポリシロキサン組成物 |
JP2017503565 |
2015-07-14 |
JP2017521538A |
2017-08-03 |
ダニエル、シルトバッハ; デトレフ、オステンドルフ; マルコ、プラッセ; ウーベ、シャイム |
本発明は、縮合反応により硬化可能で、(A)式中の基および指数は請求項1に定義した通りである、式 Ra(OH)b(R1O)cSiO(4−a−b−c)/2(I)の単位からなる少なくとも1種の有機ケイ素成分(ただし、式(I)において、和a+b+c<4である場合、前記式(I)の全単位の総数に対するaが0または1である前記式(I)の単位の総数の比として定義される分岐度が、0.5以上であり、かつ、前記式(I)の全単位の1%以上において、和b+c≧1である)、(B)酸化状態が4未満の少なくとも1個の炭素原子を含んでなる、酸化状態が+2〜+5の主族3、4、および5、ならびに遷移族2、4、5、7、および8からの金属の化合物から選択される、少なくとも1種の金属化合物、および(C)グアニジンおよびアミジンから選択される少なくとも1種の窒素化合物を含んでなる、オルガノポリシロキサン組成物、該組成物の製造方法、および該組成物の使用、さらに詳細には、人造石を製造するための使用に関する。 |
155 |
Colored material for artificial stone having surface treated with colored material transparent chip and method of manufacturing the same, and artificial stone and method of manufacturing the same |
JP2010250913 |
2010-11-09 |
JP2011102233A |
2011-05-26 |
JEONG DOO KYO; CHOI SOO JHEONG; LEE HEE CHEOL; KANG HAN JU; SON CHANG HO |
<P>PROBLEM TO BE SOLVED: To provide chips for artificial stone of which the surface is treated with colored material and which has feeling and pattern of natural metal. <P>SOLUTION: This invention relates to transparent chips with natural metal-like texture by subjecting silica-containing transparent chips to surface treatment with the colored material of metal powder, together with a transparent resin; wherein the transparent resin preferably has an APHA (American Public Health Association) color index of 10 to 70 when measured in accordance with ASTM D4890. Artificial marble is produced by mixing chips for artificial stone with a polymer matrix resin as a base resin and an inorganic filler. The chips for artificial stone preferably have a specific gravity in the range of 2.0 to 2.65, and preferably have a Mohs hardness in the range of 5 to 9. While the specific gravity of the chips for artificial stone with metal-like texture subjected to surface treatment with the colored material of the metal powder lies in the range of 2.0 to 2.65 and the specific gravity of the matrix resin lies in the range of 2.2 to 2.8, but the specific gravity of the chips must be equal to or lower than the specific gravity of the matrix resin. <P>COPYRIGHT: (C)2011,JPO&INPIT |
156 |
Fire protection foam composition and methods |
JP2003559947 |
2003-01-08 |
JP4579543B2 |
2010-11-10 |
タウブ,カール・ディー; バスタラチェ,リッキー・エヌ; ヒルトン,デニス・エム; ポール,ロバート; モーガン,マイケル・ディー; ヤング,ロバート・エス |
|
157 |
Strength improving additive for centrifugal molding concrete and centrifugal molding composition |
JP2009084952 |
2009-03-31 |
JP2010235384A |
2010-10-21 |
MIYAKE KENTARO; MATSUI TATSUYA; AKIBA KAZUKI; ITO AKINORI |
<P>PROBLEM TO BE SOLVED: To provide a strength improving additive for centrifugal molding concrete, with which no rock pocket is produced, and with which high strength is materialized at an initial material age. <P>SOLUTION: The strength improving additive for centrifugal molding concrete includes: a copolymer (a) composed of 50-98 mass% of a monomer (i) represented by formula (1), 1-49 mass% of a monomer (ii) represented by specified formula, and 0.1-5 mass% of a monomer (iii) represented by specified formula; and a copolymer (b) of a polyoxyalkylene derivative and an unsaturated carboxylic acid-based compound, wherein their ratio (a):(b) in terms of the mass ratio is (50 to 80):(20 to 50) äthe sum total of mass of (a) and (b) is set to be 100}. <P>COPYRIGHT: (C)2011,JPO&INPIT |
158 |
The methods and formulations thereby forming the resistance to permanent deformation to produce a product as well as product contains a large plaster |
JP51361399 |
1998-08-21 |
JP4332223B2 |
2009-09-16 |
グロザ,ブレント,イー.; ジヨンズ,フレデリツク,テイー.; スセク,ステイーブン,ダブリユ.; ヘンケルス,ポール,ジエイ.; ミリナク,レイモンド,ジエイ.; ユ,クイアン |
The invention provides a set gypsum-containing product having increased resistance to permanent deformation and a method for preparing it comprising forming a mixture of a calcium sulfate material, water, and an appropriate amount of one or more enhancing materials chosen from condensed phosphoric acids, each of which comprises 2 or more phosphoric acid units; and salts or ions of condensed phosphates each of which comprises 2 or more phosphate units. The mixture is then maintained under conditions sufficient for the calcium sulfate material to form a set gypsum material. |
159 |
Under vacuum, a method for producing artificial stone for outdoor including a methacrylate resin with vibration and compression |
JP2008502428 |
2005-03-22 |
JP2008534314A |
2008-08-28 |
クルース,ユアン |
本発明は、屋外に特に適する板を製造するための方法に関する。 本発明の方法は、(i)充填剤を形成する様々な粒度分布の異なる材料を粉砕する段階、(ii)触媒と、必要に応じて着色剤とを一緒に樹脂を貯蔵する段階、(iii)材料が樹脂と一緒に均質化するまで上述した構成物質を混合する段階、(iv)真空下において、振動・圧縮によって得られるペーストを成形および圧密する段階、(v)重合により樹脂を硬化させるために、樹脂を加熱する段階、ならびに(vi)樹脂を冷却および研磨する段階からなる工程を含む。 |
160 |
Non-slip artificial stone |
JP2000233513 |
2000-08-01 |
JP3975234B2 |
2007-09-12 |
有代 山梨; 研一郎 斉藤; 三枝子 酒井 |
|