序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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81 | Glass powder for dental glass ionomer cement | JP2978887 | 1987-02-13 | JPH0755882B2 | 1995-06-14 | 健太郎 富岡; 一男 広田; 敏 戸崎; 正治 赤羽 |
82 | Vermiculite forming composition | JP16509387 | 1987-07-01 | JPS6325213A | 1988-02-02 | SUBEN TERII DENTON; ARAN ATOKINSON |
83 | Method and apparatus for manufacturing a sulfur solidified body | JP2008078240 | 2008-03-25 | JP5213492B2 | 2013-06-19 | 稔 倉掛; 正明 茶谷; 義文 富永; 泰範 山口 |
84 | Method of manufacturing aggregate composites - sulfur cement or sulfur cement | JP2008543832 | 2006-12-07 | JP5098032B2 | 2012-12-12 | グイ・ロデ・マグダ・マリア・ヴェルビスト; ロブ・アロヤシアス・マリア・ウァン・トリエル |
85 | Process for the preparation of a sulfur cement pre-composition and the sulfur cement pre-composition | JP2010511625 | 2008-06-11 | JP2010528977A | 2010-08-26 | フアン・トリール,ロブ・アロイシウス・マリア; ベルビスト,ギー・ロデ・マグダ・マリア; ランクシアー,マイケル・デイビツド |
本発明は、硫黄および少なくとも有機チタン酸塩を含む硫黄セメント前駆組成物を提供し、有機チタン酸塩は一般分子式(1)のものであり、
式中、R 1はC n H (2n) −S a R 4またはC m H (2m+1)であり、およびnは1から4の範囲の整数であり、mは1から30の範囲の整数であり、およびaは2から8の範囲の整数であり、R 4はS、H、またはC p H (2p+1)であり、およびpは1から8の範囲の整数であり、XOはアルコキシまたはネオアルコキシ基であり、ならびにR 2およびR 3は独立して、C n H (2n) −S a R 4 、アルキル、ネオアルキル、アシル、またはアリール基である。 本発明はさらに、このような硫黄セメント前駆組成物を調製する方法、硫黄セメント製品を調製する方法、硫黄セメント製品、およびこのような硫黄セメント前駆組成物の使用を提供する。 本発明はさらに、有機チタン酸塩安定化剤の使用に関する。 |
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86 | Production method and production device for sulfur solidified body | JP2008078240 | 2008-03-25 | JP2009227551A | 2009-10-08 | KURAKAKE MINORU; CHATANI MASAAKI; TOMINAGA YOSHIBUMI; YAMAGUCHI YASUNORI |
PROBLEM TO BE SOLVED: To provide a production method and a production device for a sulfur solidified body where sulfur-containing materials in a molten state are poured into a sealable molding flask heated within a set temperature range under prescribed pressure, and thereafter, the materials are cooled and solidified within the molding flask so as to mold a sulfur solidified body. SOLUTION: Sulfur-containing materials in a molten state are stored into a material hopper 1 heated within a set temperature range which is the melting point of sulfur or above, this stored sulfur-containing materials are sucked by pressure generators 2a, 2b, and are pulled out inside cylinders 11a, 11b heated within the above set temperature range, the pulled-out sulfur-containing materials are extruded from the cylinders in such a manner that prescribed pressure is applied by the pressure generators, and are poured from a pouring port 24 into a molding flask 5 having a sealable cavity at the inside and heated within the above set temperature range, the pouring port of the molding flask after the sulfur-containing materials are poured into the cavity to the limit is closed, the heating of the molding flask is stopped, the sulfur-containing materials poured into the cavity are annealed, and the sulfur-containing solidified body molded in such a manner that the sulfur-containing materials in the cavity are cooled and solidified is taken out from the molding flask. COPYRIGHT: (C)2010,JPO&INPIT | ||||||
87 | The binder composition and a method of manufacturing the same for the casting element | JP32300596 | 1996-12-03 | JP4298806B2 | 2009-07-22 | クウォク−ツェン・ツェ; リーオニド・ザレツキイ; ロバート・エル・マニング |
88 | 変性硫黄含有結合材及び変性硫黄含有資材の製造法 | JP2007516126 | 2006-11-13 | JPWO2007055351A1 | 2009-04-30 | 勉 木原; 敏夫 森弘; 康夫 中塚; 忠広 上撫 |
優れた耐着火性、機械的強度、遮水性、及び耐硫黄酸化細菌性を付与でき、一般及び産業廃棄物の封止用に利用できる変性硫黄含有結合材、および、それを用いた変性硫黄含有資材を、簡便な制御により得ることができる製造法を提供する。本発明の製造法は、硫黄100質量部とエチリデンノルボルネン(ENB)0.1〜25質量部とからなる変性硫黄原材料を準備する工程、該原材料を120〜160℃で溶融混合する工程、該溶融混合物の140℃における粘度が0.05〜3.0Pa・sになった後に、120℃以下に冷却する工程を含む。変性硫黄含有資材の製造法は、前記結合材を調製した後、該結合材10〜50質量%と骨材50〜90質量%とを、120〜160℃の温度下、該結合材の140℃における粘度を0.05〜3.0Pa・sの範囲内に維持しながら混合する工程及び、該混合物を120℃以下に冷却する工程を含む。 | ||||||
89 | Binder for forming granular material | JP2000285070 | 2000-09-20 | JP2001174163A | 2001-06-29 | ELDEMALLAWY EMAD; CHRISTOPHER CHARLES NAIL; GREGORY JHON KONNAA |
PROBLEM TO BE SOLVED: To provide a binder for manufacturing granular material correctly in the size without generating any fume or smoke. SOLUTION: This binder is produced by a granular metallic oxide capable of forming a metalate under the presence of alkali, and the product is dried in such a state that the granular metallic oxide still remains unreactive inside while the metalate is formed on the surface thereof by using an alkali and water. COPYRIGHT: (C)2001,JPO | ||||||
90 | Thermosetting molds for the binder and their applications | JP51276694 | 1994-10-24 | JP3043812B2 | 2000-05-22 | タワードスカ、ヘレナ; ランガー、ヘイモ |
91 | Reaction product of aluminum compound, boron-containing acid, phosphorus-containing acid and amine | JP30264094 | 1994-11-14 | JPH07238085A | 1995-09-12 | BURUFU FUON BOONIN |
PURPOSE: To provide the subject reaction product which can be used in a very wide variety of ways, for example, as binders, coating compositions or insulating materials. CONSTITUTION: There is provided a reaction product obtained by reaction one mole of an aluminum compound (A) with 0.3-1.19 mole of a boron-containing acid (B), (1.8-2.19)+(x) mole of a phosphorus-containing acid (P) and (0.3-3.69)+(y) mole of an amine (N), where x=-1.5-+1.5 mole and y=0-12. COPYRIGHT: (C)1995,JPO | ||||||
92 | Glass powder for glass ionomer cement for dental surgery | JP2978887 | 1987-02-13 | JPS63201038A | 1988-08-19 | AKAHA MASAHARU; TOZAKI SATOSHI; HIROTA KAZUO; TOMIOKA KENTARO |
PURPOSE: To produce glass powder preferable for glass ionomer cement for dental surgery by preparing fluoroaluminosilicate glass powder in which specific gravity and average particle diameter are specified and also its component and composition are specified. CONSTITUTION: Fluoroaluminosilicate glass powder is prepared which has 2.4W3 specific gravity and 0.02W10μ average particle diameter and contains by weight 20W50% SiO 2, 20W40% Al 2O 3, 15W40% SrO, 1W20% F 2 and 0W15% P 2O 5 as reduced amount in its component and does not contain both alkali metallic ions such as Li, Na, K, Rb and alkaline earth metallic ions such as Be, Mg, Ba. Ionomer cement for dental surgery used with this glass powder is lowered in solubility and is excellent in water resistance and low in water sensitivity at the initial period of a curing process and has sufficient pot life and also is quickly cured. COPYRIGHT: (C)1988,JPO&Japio | ||||||
93 | High shear strength adhesive and bond of nylon to nylon | JP5647482 | 1982-04-05 | JPS5811574A | 1983-01-22 | SAMUERU SEROTA; UIRIAMU NERUSON MAAMAA |
94 | JPS5059276A - | JP10893274 | 1974-09-24 | JPS5059276A | 1975-05-22 | |
95 | RUBBER COMPOSITE AND PROCESS FOR OBTAINING SAME | US15489893 | 2017-04-18 | US20180297898A1 | 2018-10-18 | Jorge B. SOUSA |
This disclosure provides a rubber composite for use in a variety of applications, and methods for its preparation. | ||||||
96 | Geopolymer with nanoparticle retardant and method | US15423110 | 2017-02-02 | US10087107B2 | 2018-10-02 | Erez Allouche; Yuri Lvov; Carlos Montes; Anupam Joshi |
A method of controlling the setting time of a geopolymer by coating aluminosilicate particles with nanoparticles to slow the geopolymerization reaction. The coating effectiveness of the nanoparticles may be enhanced by pretreating the aluminosilicate particles with a layer-by-layer assembly of polyelectrolytes. A geopolymer is formed by mixing about 39% to about 66% by weight aluminosilicate source, about 0% to about 40% by weight sand, about 19% to about 33% by weight of alkali activator solution, and about 1% to about 4% nanoparticles. | ||||||
97 | Methods for the Manufacture of Colorfast Masonry | US15455689 | 2017-03-10 | US20170190617A1 | 2017-07-06 | Thomas A. Hill; Steven W. McAllister; J. Michael Dosier; Ginger K. Dosier |
The invention is directed to compositions and methods for the manufacture of pigmented solids structures for which can be used for construction and/or decoration. Manufacturing comprises fixing one or more pigments to an aggregate material such as crushed rock, stone or sand. The pigmented aggregate is incubated with urease or urease producing microorganisms, an amount of a nitrogen source such as urea, and an amount of calcium source such as calcium chloride forming calcite bridges between particles of aggregate. The resulting solid has a hardness and colorfastness for most any construction material. Using selected aggregate and pigment, the process also provides for the manufacture of simulated-stone materials such as clay or granite bricks or blocks, marble counter-tops, and more. The invention is also directed to composition containing microorganisms and pigment as kits that can be added to most any aggregate materials. | ||||||
98 | APPARATUS FOR CARBONATION OF A CEMENT MIX | US15228964 | 2016-08-04 | US20160340253A1 | 2016-11-24 | Dean Paul Forgeron; George Sean Monkman; Kevin Cail; Joshua Jeremy Brown |
The invention provides compositions and methods directed to carbonation of a cement mix during mixing. The carbonation may be controlled by one or more feedback mechanisms to adjust carbon dioxide delivery based on one or more characteristics of the mix or other aspects of the mixing operation. | ||||||
99 | Concrete compositions and methods | US13573786 | 2012-10-03 | US09061940B2 | 2015-06-23 | Irvin Chen; Patricia Tung Lee; Joshua Patterson |
Provided herein are compositions, methods, and systems for cementitious compositions containing calcium carbonate compositions and aggregate. The compositions find use in a variety of applications, including use in a variety of building materials and building applications. | ||||||
100 | Methods for determining reactive index for cementitious components, associated compositions, and methods of use | US13662155 | 2012-10-26 | US08997578B2 | 2015-04-07 | Ronnie G. Morgan; D. Chad Brenneis; Craig W. Roddy |
A variety of methods and compositions are included, without limitation, a method of cementing includes providing a settable composition comprising water and a cementitious component having a determined reactive index; and allowing the settable composition to set to form a hardened mass. |