| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | Compositions for the manufacture of organo-mineral products, products obtained therefrom and their use | US10182903 | 2002-08-30 | US06713554B2 | 2004-03-30 | Harald Bode |
| The present invention relates to a composition comprising a component (A) containing, an aqueous alkali silicate solution and a primary amino-alcohol as a catalyst, and a component (B) containing a polyisocyanate. The present invention further relates to organo-mineral products which can be obtained by the transformation of polyisocyanates and aqueous alkali silicate solutions in the presence of a primary amino-alcohol as a catalyst. The organo-mineral products can be used as building, coating, sealing or insulating materials, or as a cement or adhesive. | ||||||
| 22 | Hardening composition, hardened product, and method of producing hardened product | US904976 | 1997-08-01 | US5897703A | 1999-04-27 | Yuji Hatakeyama; Hiroshi Inoue; Katsuhiko Yamamoto |
| A hardening composition comprising a hardening component and hardening agents, said hardening component consisting essentially of magnesium oxide, said hardening agents consisting essentially of propylene carbonate and water, content of said magnesium oxide being 100 parts by weight, content of said propylene carbonate being 1 to 60 parts by weight, and content of said water being 20 to 135 parts by weight. Further disclosed are a hardened product prepared by hardening the hardening composition, and a method for producing the hardened product. | ||||||
| 23 | Products of reaction of an aluminum compound, a boron-containing acid, a phosphorus-containing acid and an amine | US337791 | 1994-11-14 | US5604024A | 1997-02-18 | Wulf von Bonin |
| Products of reaction of an aluminum compound (A), a boron-containing acid (B), a phosphorus-containing acid (P) and an amine (N) are characterized in that 1 mol of (A) has been reacted with from 0.3 to 1.19 mol of B, (from 1.8 to 2.19)+x mol of P and (from 0.3 to 3.69)+y mol of N, where x=from -1.5 to +1.5 and y=from 0 to 12. These reaction products may contain, if desired, up to 30 mol of water per mole of A employed and may be used in a very wide variety of ways, for example as binders, coating compositions or insulating material. | ||||||
| 24 | Spring element | US796490 | 1985-11-07 | US4685658A | 1987-08-11 | Jack B. Keown |
| A resilient support for receiving a force acting thereon along a certain direction, and wherein the force is opposed by a bearing counterforce acting at least partly along a direction opposite to said certain direction, and which includes a plurality of bar elements, at least two bar elements confronting one another, each of the two confronting bar elements having end regions, and forming a rod pair, a linking bar joining the confronting bar elements at a first set of connecting locations spaced at a distance from any end region of any of the confronting bar elements, two other bar elements, each connecting the end regions off the two confronting bar elements at a second set of connecting locations so as to form a closed structure therewith, the other bar elements forming a bar pair, at least two of the means being resilient in at least one of flexion and torsion, one force acting on a location of at least one of the other bar elements, the other force acting on the linking bar, at least one of the forces acting on a location of one of the bar means which is remote from the connecting location of the one of the linking bar or bar pair with the rod pair. | ||||||
| 25 | Inorganic-organic compositions | US527476 | 1974-11-26 | US4097423A | 1978-06-27 | Dieter Dieterich |
| Inorganic-organic compositions obtained from a mixture of components comprising: (a) from 5-98% by weight of an organic polyisocyanate; (b) from 2-95% by weight of an aqueous alkali metal silicate solution containing about 20-70% by weight of said alkali metal silicate; and (c) from 0-93% by weight of a water-binding component Based on the total weight of (a), (b) and (c) with the proviso that when (c) is 0-20% by weight (a) contains 2-200 milliequivalents of ionic groups per 100 grams of said polyisocyanate. Flexible inorganic-organic plastics which have a low calorific value and improved fire characteristics are prepared from a reaction mixture containing (a) 30 to 70 percent by weight of one or more compounds with Zerewittinoff-active hydrogen atoms which have an average molecular weight of 400 to 6000, preferably 1000 to 6000, and a glass temperature below 10.degree. C, preferably below -20.degree. C; (b) 10 to 30 percent by weight of an organic polyisocyanate; and (c) 20 to 60 percent by weight of an aqueous alkali metal silicate solution which has a solids content of between 30 and 70 percent by weight. The organic polyisocyanate may be one which contains a phenolic hydroxyl group. The products of the invention may be used in many forms including both porous and non-porous products as surface coatings having good adhesion and resistance to abrasion, as a mortar, as a flexible elastomer, and as a foam concrete for making molded products particularly in construction engineering and civil engineering as for building walls, igloos, road buildings and the like. | ||||||
| 26 | Process for preparation of refractory insulating blocks | US72552058 | 1958-04-01 | US2965504A | 1960-12-20 | GOGEK CHARLES J |
| 27 | A PROCESS FOR PROVIDING INORGANIC POLYMER CERAMIC-LIKE MATERIALS | EP16863016.8 | 2016-11-04 | EP3371124A1 | 2018-09-12 | Alessi, Vince; Madkour, Ahmad; Marchal, Julien; Shick, Reed |
| A process for providing inorganic polymer ceramic-like materials. The process comprises providing a first material which comprises at least one non-oxide ceramic powder, and, at least one metal oxide, and providing a second material which comprises a caustic slurry composed of alkaline water and a solvent, and, combining the materials with stirring. There is also provided a composition of matter provided by the above-mentioned process which is a chemically bonded ceramic polymer comprising metal oxide and non-oxide ceramic bonds. | ||||||
| 28 | AGGREGATE-BASED MANDRELS FOR COMPOSITE PART PRODUCTION AND COMPOSITE PART PRODUCTION METHODS | EP08796128 | 2008-07-09 | EP2190933A4 | 2016-07-20 | ROSSFELDT JENS; WALLEN MATT |
| 29 | Three component composition for the manufacture of polyurethane cementitious hybrid flooring or coating with improved surface gloss | EP14168704.6 | 2014-05-16 | EP2944622A1 | 2015-11-18 | Gimeno, Patricia; Kaddatz, Carola; Grötzinger, Jochen; Gantner, Hans |
The present invention relates to a three component composition consisting of a polyol component (A) comprising at least two polyols, one with high and one with low molecular weight, and water, a polyisocyanate component (B) comprising a methylene diphenyl diisocyanate (MDI) product with an average NCO functionality of at least 2.5, or a methylene diphenyl diisocyanate (MDI) product with an average NCO functionality of at least 2 and at least one further polyol with an amount of between 1 % and 30% based on the weight of said polyisocyanate component (B), wherein said MDI product and said polyol have reacted at least partially, and a powder component (C) comprising at least one hydraulic binder, preferably cement and/or calcined paper sludge, preferably a calcium compound selected from calcium hydroxide and/or calcium oxide, and optionally one or more aggregates. Polyurethane cementitious hybrid flooring or coating systems having glossy/semiglossy surfaces, good workability and outstanding mechanical properties can be achieved. Blister formation can be avoided. |
||||||
| 30 | METHOD FOR PREPARING MATERIALS CONTAINING BINDER SYSTEMS DERIVED FROM AMORPHOUS SILICA AND BASES | EP04739017.4 | 2004-07-30 | EP1663901A2 | 2006-06-07 | HOLBEK, Kjeld; S GAARD, Erik, Gydesen |
| The present invention concerns a method for preparing materials containing binder systems derived from amorphous silica and bases as well as the materials prepared by the method. Relative to known methods, the present invention allows for continuous production of material as the two components of the binder are brought onto into contact where the binder system is to be applied. The product achieved by the invention has a broad range of applications, such as for construction materials, insulating materials, fire proof materials, reinforcement materials etc. the present invention also relates to a method for preparing materials containing binder systems derived from amorphous inorganic material and bases as well as the materials prepared by the method. | ||||||
| 31 | ORGANOMINERALSYSTEM ERHÄLTLICH DURCH UMSETZUNG VON POLYISOCYANATEN MIT WASSERGLAS IN GEGENWART VON AMINOSILANEN | EP02742985.1 | 2002-05-10 | EP1390419A1 | 2004-02-25 | CORNELY, Wolfgang; SAMEK, Petra; CZYSOLLEK, Oliver; FISCHER, Martin |
| The invention relates to organo-mineral systems, obtained by reaction of a polyisocyanate component with a water glass component, whereby the water glass component comprises silane compounds containing at least two primary and/or secondary amino groups. The organo-mineral system can be used for filling drilled holes, cementing anchors in place, as a spray coating for building surfaces and a repair cement for making good defects. | ||||||
| 32 | Coating composition | EP91301695.2 | 1991-03-01 | EP0501055A1 | 1992-09-02 | Glotfelter, Craig Allen; Ryan, Robert Parke |
A 1 to 8 micron organic/inorganic (epoxy/glass) wear surface coating over a clear, protective layer provides excellent stain and gloss protection. An acid hydrolysed silicate is combined with an acid hydrolysed silicone coupling agent, an epoxy monomer, a photoinitiator and silicon oil surfactant to produce a coating composition which is dried to remove alcohol/water solvent and U.V. cured. |
||||||
| 33 | Process for producing foam insulation | EP83903043.4 | 1983-08-29 | EP0121524B1 | 1989-01-11 | THOMSON, Donald W.; CHRISTOPHER, R. Keene |
| An insulating foam and a process for producing insulating foam, wherein a foamable first component may be made of alkyl sulfate, half ester of maleic anhydride and acrylic resin in an aqueous solution is mechanically foamed with air, and to that foam is added an aqueous solution of magnesium oxide, dispersant, acrylic resin, perlite and/or precipitated calcium carbonate. To those components is added an aqueous solution of at least one of aluminum chloride, magnesium sulfate, magnesium chloride, zinc chloride, sulfamic acid, sodium silicate, zinc oxide, barium metaborate, vinyl alcohol, magnesium carbonate, calcium chloride and vinyl acetate. In another embodiment a polyvinyl alcohol and dispersant first portion is foamed with air and mixed with a second cementitious portion comprising magnesium oxide and barium metaborate. Such two or three portion compositions can be mixed in the mixing chamber of a foaming gun whch immediately after foam-mixing injects the foamed mixture into a desired site, such as a building wall. | ||||||
| 34 | 저발열형 고강도 콘크리트 조성물 | KR1020140156833 | 2014-11-12 | KR1020160056969A | 2016-05-23 | 류득현; 김정식; 조현태; 최성우; 박조범; 김호수; 김훈상; 백철우; 시대복; 손주혁; 황재호; 박규연 |
| 본발명은본 발명은「폴리카르본산계로서유지계 50~70wt% 및감수계 30~50wt%로이루어진저발열형고강도콘크리트용감수제」, 「TEA(Tri-Ethanol-Amine) 30~50wt% 및 PA(Polypenol-Amine) 50~70wt%를혼합하여구성된저발열형고강도콘크리트용알칼리이온활성화제」및 「고로슬래그미분말 45~55wt%, 보통포틀랜드시멘트 25~35wt% 및플라이애시 15~25wt%로이루어진결합재(B) 450~550㎏/㎥; 물(W) 135~175㎏/㎥; 잔골재(S) 700~770㎏/㎥; 굵은골재(G) 850~940㎏/㎥; 상기저발열형고강도콘크리트용감수제 4.05~8.25㎏/㎥; 및상기저발열형고강도콘크리트용알칼리이온활성화제;를포함하여구성되며, 물결합재비(W/B)가 27~35%, 잔골재율(S/a)이 42~48%이고, 상기저발열형고강도콘크리트용감수제는상기결합재(B) 100중량부에대하여 0.9~1.4중량부혼입되며, 상기저발열형고강도콘크리트용알칼리이온활성화제는상기결합재(B) 100중량부대비 0.1중량부혼입된것을특징으로하는저발열형고강도콘크리트조성물」을제공한다. | ||||||
| 35 | 무기경화조성물 | KR1019940027263 | 1994-10-25 | KR1019970009983B1 | 1997-06-20 | 고보리시게지; 모리모토죠타로; 하타케야마유지 |
| 내용 없음. | ||||||
| 36 | 발수·방수성 콘크리트용 표면처리제의 제조방법 | KR1020140112958 | 2014-08-28 | KR1020160025741A | 2016-03-09 | 임채영 |
| 본발명은발수·방수성콘크리트용표면처리제에관한것으로서, 특히휘발성유기화합물등이발생되지않고, 압축강도등의물성, 동결융해저항성및 내화학성등이우수한콘크리트제품을제조할수 발수·방수성콘크리트용표면처리제에관한것으로서, 레미콘회수수에송진, 폐식용유, 음이온 AE제및 PC계혼화제가혼합되어이루어지는것을특징으로한다. | ||||||
| 37 | 실리케이트 이소시아네이트 | KR1020117016017 | 2009-12-11 | KR1020110106353A | 2011-09-28 | 취졸렉,올리버; 크리자노비치,올가; 사멕,페트라; 타츠키,토어스텐; 아이게만,에른스트; 피셔,마틴 |
| 본 발명은 수분함량이 실질적으로 0%w/w인 칼륨 실리케이트 및/또는 나트륨 실리케이트 분말과 이소시아네이트를 포함하는 조성물에 관한 것이며, 상기 조성물의 제조방법 및 경화방법에 관한 것이며, 상기 조성물로 충전된 록 볼트에 관한 것이며, 불투수 막에 의해 형성되고 상기 조성물을 포함하는 록 볼팅 캡슐에 관한 것이다.
|
||||||
| 38 | 無機高分子のセラミック様の材料を提供するためのプロセス | JP2018543274 | 2016-11-04 | JP2018535919A | 2018-12-06 | アレッシ,ヴィンス; マドクール,アハマド; マーチャル,ジュリエン; シック,リード |
| 無機高分子のセラミック様の材料を提供するためのプロセスが開示される。該プロセスは、少なくとも1つの非酸化物セラミック粉末と、少なくとも1つの金属酸化物とを含む第1の材料を提供する工程と、アルカリ水および溶剤から成る腐食性のスラリーを含む第2の材料を提供する工程と、材料を撹拌して混ぜ合わせる工程と、を含む。上述のプロセスによって提供される、金属酸化物と非酸化物セラミックとの結合を含む化学的に結合したセラミック高分子である組成物も提供される。 【選択図】無し |
||||||
| 39 | ケイ酸塩イソシアネート | JP2011540215 | 2009-12-11 | JP5860701B2 | 2016-02-16 | オリヴァー・チソレク; オルガ・クリザノヴィッチ; ペトラ・サメク; トルステン・タツキ; エルンスト・アイゲマン; マルティン・フィッシャー |
| 40 | 寸法の安定したジオポリマー組成物および方法 | JP2015509035 | 2013-04-19 | JP2015518462A | 2015-07-02 | アシッシュ・デュービー |
| セメント製品、例えばコンクリート、プレキャスト建築要素およびパネル、モルタル、道路修復用パッチ材料、および他の修復材など用のジオポリマーセメント質結合剤組成物を作る方法が開示される。いくつかの実施形態のジオポリマーセメント質組成物は、熱活性化アルミノケイ酸塩鉱物、スルホアルミン酸カルシウムセメント、硫酸カルシウム、および化学活性化剤からなる相乗的混合物を水と混合することで作られる。【選択図】図3B | ||||||
QQ群二维码
意见反馈
意见反馈