61 |
Polymer/glass hybrid coating |
US649074 |
1991-02-19 |
US5120811A |
1992-06-09 |
Craig A. Glotfelter; Robert P. Ryan |
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 hydrolyzed silicate is combined with an acid hydrolyzed 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. |
62 |
High refractive-index ceramic/polymer hybrid material |
US441493 |
1989-11-27 |
US5109080A |
1992-04-28 |
Bing Wang; Garth L. Wilkes |
New hybird materials prepared by incorporating a metal alkoxide sol, which is adapted to yield a high refractive-index metal oxide (e.g., titanium dioxide or zirconium dioxide), with a high refractive-index organic polymeric component (e.g., a triethoxysilane-capped poly(arylene ether) ketone or poly(arylene ether) sulfone) have been developed by the sol-gel method. The final products are transparent and display a high refractive index (n.sub.D =1.60-1.76). The refractive index of these hybrid materials has a linear relationship with the metal oxide content. |
63 |
Floor covering having a modified glass wear layer |
US209097 |
1988-06-20 |
US5023140A |
1991-06-11 |
Craig A. Glotfelter; Robert P. Ryan |
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 hydrolyzed silicate is combined with an acid hydrolyzed 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. |
64 |
Method of impregnating a water-penetrable article with a swell-inhibited
water swellable clay slurry |
US766766 |
1985-08-16 |
US4613542A |
1986-09-23 |
William Alexander |
A method of impregnating a water-penetrable article with a clay slurry includes temporarily inhibiting the swellability of the clay to unexpectedly increase the clay content and decrease the viscosity of the slurry to achieve a higher clay content in a clay-impregnated, water-penetrable article. The swelling capacity of a water-swellable clay composition in contact with water is temporarily inhibited for greater impregnation of the clay into the fibrous article by mixing with a water-swellable clay a water soluble anionic polymer having a weight average molecular weight of about 2,000 to about 150,000 and water. The water soluble anionic polymers temporarily inhibit the swelling capacity of the water-swellable clays to decrease the viscosity of the clay slurry to achieve a higher clay content or more efficient and faster clay impregnation into a water-penetrable, e.g. fibrous, article. The water soluble anionic polymers having a weight average molecular weight in the range of 2,000 to 150,000 temporarily will inhibit the swelling of a water-swellable clay so that the clay solids content of the slurry can be approximately doubled for impregnation. The temporary swell-inhibiting properties of the relatively low molecular weight anionic polymers permit impregnation of a clay slurry having a relatively low viscosity so that the clay solids content of the slurry can be substantially increased for impregnation. Upon breakdown of the polymers to a weight average molecular weight below about 2,000, such as by heating above about 200.degree. F., the clay reverts to its original properties. |
65 |
Process for the Production of alkall metal silicate-organic plastics |
US233151 |
1981-02-10 |
US4303768A |
1981-12-01 |
David H. Blount |
Polymerable organic compounds are emulsified with aqueous alkali metal silicate solutions then polymerized with a catalyst such as a peroxide type catalyst thereby producing an alkali metal silicate organic plastic which may be used as an adhesive or as molding powder. |
66 |
Calcined polyhydroxysilicate polymer reaction product |
US138451 |
1980-04-08 |
US4277596A |
1981-07-07 |
Jean M. Lalancette |
There is provided a molded shaped structure made by molding the reaction product of an organic resin and a modified magnesium silicate obtained by calcining chrysotile asbestos tailings. The new product is characterized by the absence of any fibers. |
67 |
Inorganic-organic compositions |
US469253 |
1974-05-13 |
US4097422A |
1978-06-27 |
Peter Markusch |
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 silica sol containing about 20 - 60% by weight of said silica and, (c) from 0 - 93% by weight of a water-binding component Based on the total weight of (a), (b) and (c). 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, and as a foam concrete for making molded products particularly in construction engineering and civil engineering as for building walls, igloos, road building and the like. |
68 |
Inorganic-organic compositions |
US469254 |
1974-05-13 |
US4052347A |
1977-10-04 |
Dieter Dieterich; Peter Markusch |
Inorganic-organic compositions obtained from a mixture of compounds comprising:A. from 2-95% by weight of an aqueous alkali metal silicate solution; and containing about 20-70% by weight of said alkali metal silicate and,B. from 5-98% by weight of an organic nonionic hydrophilic polyisocyanate.A water-binding material such as hydraulic cement may be included in the reaction mixture. 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, and as a foam concrete for making molded products particularly in construction engineering and civil engineering as for building walls, igloos, road building and the like. Products are especially useful as lightweight thermal insulating materials with excellent mechanical properties and fire-resistance. |
69 |
Composite bonded sheet insulating materials |
US52661444 |
1944-03-15 |
US2456251A |
1948-12-14 |
BOUGHTON WILLIS A; DAWES CHESTER L; MANSFIELD WILLIAM R |
|
70 |
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 |
JP6283659B2 |
2018-02-21 |
アシッシュ・デュービー |
|
71 |
寸法の安定したジオポリマー組成物および方法 |
JP2015509036 |
2013-04-19 |
JP6207591B2 |
2017-10-04 |
アシッシュ・デュービー |
|
72 |
Silicate isocyanate |
JP2011540215 |
2009-12-11 |
JP2012511613A |
2012-05-24 |
エルンスト・アイゲマン; オリヴァー・チソレク; オルガ・クリザノヴィッチ; トルステン・タツキ; ペトラ・サメク; マルティン・フィッシャー |
This invention relates to compositions comprising a potassium silicate and/or sodium silicate powder having a water content of substantially 0%w/w and an isocyanate,to processes for preparing and hardening these compositions, to a rock bolt filled with the composition and to a rock bolting capsule formed by a water impermeable membrane and containing the composition. |
73 |
Foam insulation material, its manufacturing method and manufacturing equipment |
JP50309883 |
1983-08-29 |
JPH062622B2 |
1994-01-12 |
TOMUSON DONARUDO DABURYU; KURISUTOFUAA AARU KIIN |
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. |
74 |
JPS59501710A - |
JP50309883 |
1983-08-29 |
JPS59501710A |
1984-10-11 |
|
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. |
75 |
JPS5647145B2 - |
JP2294674 |
1974-02-28 |
JPS5647145B2 |
1981-11-07 |
|
|
76 |
JPS5530530B2 - |
JP13639074 |
1974-11-29 |
JPS5530530B2 |
1980-08-12 |
|
|
77 |
JPS5427879B2 - |
JP13639174 |
1974-11-29 |
JPS5427879B2 |
1979-09-12 |
|
|
78 |
JPS5087194A - |
JP13639174 |
1974-11-29 |
JPS5087194A |
1975-07-14 |
|
|
79 |
JPS5019885A - |
JP5393374 |
1974-05-16 |
JPS5019885A |
1975-03-03 |
|
|
80 |
치수 안정성 지오폴리머 조성물 및 방법 |
KR1020147032427 |
2013-04-19 |
KR1020150006855A |
2015-01-19 |
듀베이,아쉬쉬 |
시멘트질 제품 예컨대 콘크리트, 프리캐스트 건축 요소들 및 패널, 모르타르 및 보수 재료들, 및 기타 등을 위한 지오폴리머 시멘트질 바인더 조성물 제조방법이 개시된다. 일부 실시태양들의 지오폴리머 시멘트질 조성물은 열적 활성화 알루미노실리케이트 미네랄, 칼슘 알루미네이트 시멘트, 황산칼슘 및 화학 활성화제의 효과 상승적인 혼합물과 물을 혼합하여 제조된다.
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