181 |
규산 혼합물 및 절연재로서의 이의 용도 |
KR1020167009866 |
2014-08-27 |
KR1020160058859A |
2016-05-25 |
크니스볼프강; 아이블마이어한스 |
본발명은규산혼합물및 절연재로서이의용도에관한것이다. 본발명이해결하고자하는문제는, 절연을위해사용될수 있는규산계인비용효율적인혼합물을제공하는것이며, 상기혼합물은절연특성을실질적으로저하시키지않으면서가능한한 작은부피의화학제조된규산및 높은비율의규소함유부산물또는폐기물을함유한다. 상기문제는, 규산및 50 중량% 초과의규소함유회분의혼합물로서, 펄라이트를함유하지않는혼합물에의해해결되며, 여기서상기규소함유회분은바람직하게는왕겨회분및 실리카퓸을포함한다. 본발명은추가로, 본발명에따른혼합물을제조하고상기혼합물을엔벨로프(envelope) 내로도입함으로써절연재를제조하는방법으로서, 이방법중에소결단계가수행되지않는것인제조방법에관한것이다. 상이한조성의혼합물은진공절연패널내로상응하여가공되며절연특성은측정된열 전도도에기초하여비교된다. 본발명에따른혼합물은절연재로서, 특히건물절연을위해사용될수 있다. |
182 |
단열 혼합물의 제조 방법 |
KR1020157010346 |
2013-10-15 |
KR1020150060832A |
2015-06-03 |
멘첼,프랑크; 바네르트,토비아스; 뮐러,후베르트; 가이슬러,마티아스; 슐츠,토르스텐 |
운반기체 (D), 규산입자 (A) 및불투명화제입자 (B)를포함하는예비-혼합된유동을미세충격밀 (mill) (E)에도입하여, 예비-혼합된유동을분쇄, 혼합하고, 이어서고체를기체유동 (D)으로부터분리하는, 규산입자 (A) 및불투명화제입자 (B)를포함하는단열혼합물의연속제조방법을개시한다. |
183 |
고온 단열용 마이크로 다공성 단열재 및 그 제조방법 |
KR1020080122374 |
2008-12-04 |
KR1020100063984A |
2010-06-14 |
이재춘; 권영필; 권혁천 |
PURPOSE: A micro porous insulation material for the high temperature insulation, and a manufacturing method thereof are provided secure the low thermal conductivity at high temperature using nano titania infrared ray opacifier and microporous insulation powder. CONSTITUTION: A micro porous insulation material for the high temperature insulation contains 60~90% of micro porous insulation powder, and 10~40% of nano titania infrared ray opacifier. The nano titania infrared ray opacifier is titania or silicon carbide. A manufacturing method of the micro porous insulation material comprises the following steps: preparing fumed silica and titania powder(S11); mixing the fumed silica and the titania powder in a weight ratio of 9:1~6:4(S13); forming mixture powder of the fumed silica and the titania powder using a mechanofusion apparatus(S15); and molding the insulation material using a mold(S17). |
184 |
입자형의 섬유가 없는 마이크로다공성 단열 재료 및 방법 |
KR1020077023031 |
2005-11-23 |
KR1020070112472A |
2007-11-26 |
압둘-카더,오라스카리드; 모티머,마크다니엘; 야마무로,타카시 |
A granular fibre-free microporous thermal insulation material, having a thermal conductivity less than 0.05 W/mK and a shrinkage of not more than 10%, which is free flowing and consists of granules of an intimate mixture of: 30-95% dry weight microporous insulating material; 5-70% dry weight infrared opacifier material; 0-50% particulate insulating filler material; and 0-5% binder material. The material is made by mixing together the microporous insulating material and the infrared opacifier material to form an intimate aerated mixture with a first density; conveying the intimate mixture at a first volumetric flow rate to an extrusion means (5); extruding the intimate mixture as a compressed material with a second density greater than the first density at a second volumetric flow rate lower than the first volumetric flow rate; venting a proportion of air from the aerated intimate mixture through a porous membrane to relieve pressure generated within the intimate mixture due to the change from the first volumetric flow rate to the second volumetric flow rate; and granulating the compressed material. |
185 |
두개의파장범위에서는반사성을가지고제3파장범위에서는흡수성을가지는코팅제 |
KR1019970704888 |
1996-01-11 |
KR100404313B1 |
2004-03-30 |
휴고게르트 |
두 개의 파장범위에서는 반사성을 가지고 제 3 파장 범위에서는 흡수성을 가지는 코팅제는 특히 가시영역에서 밝게 칠하여졌을 때, 통상의 방법을 사용하면서도 열복사 영역에서 에너지의 재방출없이 태양 스펙트럼의 근적외선 영역에서 에너지를 얻을 수 있다. |
186 |
단열 혼합물의 제조 방법 |
KR1020157010346 |
2013-10-15 |
KR101681439B1 |
2016-11-30 |
멘첼,프랑크; 바네르트,토비아스; 뮐러,후베르트; 가이슬러,마티아스; 슐츠,토르스텐 |
운반기체 (D), 규산입자 (A) 및불투명화제입자 (B)를포함하는예비-혼합된유동을미세충격밀 (mill) (E)에도입하여, 예비-혼합된유동을분쇄, 혼합하고, 이어서고체를기체유동 (D)으로부터분리하는, 규산입자 (A) 및불투명화제입자 (B)를포함하는단열혼합물의연속제조방법을개시한다. |
187 |
에어로겔 블랭킷 및 그의 제조 방법 |
KR1020157026081 |
2014-03-11 |
KR1020150122196A |
2015-10-30 |
사만타,수스나타; 페스카토르,에프.피터; 토마스,브라이언,피. |
부직포습식레이드에어로겔블랭킷의제조방법이제공된다. 에어로겔블랭킷은개선된열 전도성, 보다낮은부식성, 보다낮은분진생성및 균일구조를나타낼수 있다. 블랭킷은에어로겔입자의슬러리로부터형성된에어로겔플록으로부터제조될수 있다. |
188 |
기재 장착 시스템 |
KR1020157013807 |
2008-08-28 |
KR1020150071033A |
2015-06-25 |
페르난데스주니어세르지오다비드 |
배기가스처리장치 (110) 의취성기재 (118) 용지지시스템 (120) 은취성기재의적어도일부와직접적으로또는간접적으로결합하는미세다공성무기단열층 (212, 322) 과; 취성기재의적어도일부와직접적으로또는간접적으로결합하는가요성섬유장착매트 (213, 323) 를포함한다. 지지시스템은촉매변환기, 디젤입자트랩필터, 선택적인촉매환원유닛, 또는 NO트랩의취성기재를지지할수 있다. |
189 |
소수성 단열 성형물의 제조 방법 |
KR1020147001727 |
2011-07-27 |
KR1020140053975A |
2014-05-08 |
크라텔,귄터; 보어헤르트,게르트; 멘젤,프랑크 |
본 발명은 친수성 규산을 포함하는 미세다공성 단열 성형물을 소수성화하는 방법에 관한 것이며, 이 방법에서는 성형물을 적어도 1종의 유기실란으로 처리하고, 반응 조건 하에서 증기상인 1종 이상의 유기실란을, 친수성 규산을 포함하는 미세다공성 단열 성형물을 함유하는 챔버 내에 압력 차가 Δp > 20 mbar가 될 때까지 도입시킨다. |
190 |
고성능 진공-밀폐 절연체 |
KR1020077007593 |
2005-09-01 |
KR101318462B1 |
2013-10-16 |
스테파니안,크리스토퍼,제이.; 트리후,로사나; 오우,두안,리 |
외피에 의하여 완전히 에워싸여지고 감압상태에서 밀봉된 에어로겔 합성물을 포함하는 절연 구조체로써, 상기 에어로겔 합성물은 적어도 하나의 산화 금속 매트릭스와 섬유상 물질을 내부에 포함하고, 상기 절연 구조체는 실질적인 균열없이 적어도 90°와 1/2 인치 미만의 굽힘 반경으로 구부러질 수 있다.
에어로겔, 절연, 진공, 밀봉 |
191 |
기재 장착 시스템 |
KR1020107004459 |
2008-08-28 |
KR1020100076942A |
2010-07-06 |
페르난데스주니어세르지오다비드 |
A support system (120) for a fragile substrate (118) of an exhaust gas treatment device (110) includes a microporous, inorganic insulating layer, which directly or indirectly engages at least a portion of the fragile substrate; and a flexible fibrous mounting mat which directly or indirectly engages at least a portion of said fragile substrate. The support system may support the fragile substrate of a catalytic converter, a diesel particulate trap filter, a selective catalyst reduction unit, or a NOx trap. |
192 |
친환경 무기 복합 바닥재 조성물 및 이를 이용한 시공방법 |
KR1020100006079 |
2010-01-22 |
KR100967949B1 |
2010-07-06 |
이대경; 김대선; 이상욱; 임혜진 |
PURPOSE: An environment-friendly inorganic complex flooring material is provided to prevent the separation and deterioration of the flooring material by unitizing the flooring material with a concrete flooring material using inorganic powder and acrylic emersion and to improve self-leveling property. CONSTITUTION: An environment-friendly inorganic complex flooring material includes inorganic additive 1-20 parts by weight, acryl resin emulsion 120-150 parts by weight, opaque] polymer resin 10-20 parts by weight, thickening agent 3-10 parts by weight, water repellent 3-10 parts by weight, fluidifier 2-5 parts by weight, antifoaming agent 2-5 parts by weight, dispersing agent 1-2 parts by weight, and curing accelerator 1-2 parts by weight. A construction method using the flooring material includes a step for forming a floor material layer(3) having a thickness of 2-5mm by spreading the flooring material into a concrete floor(1). |
193 |
고성능 진공-밀폐 절연체 |
KR1020077007593 |
2005-09-01 |
KR1020070046977A |
2007-05-03 |
스테파니안,크리스토퍼,제이.; 트리후,로사나; 오우,두안,리 |
외피에 의하여 완전히 에워싸여지고 감압상태에서 밀봉된 에어로겔 합성물을 포함하는 절연 구조체로써, 상기 에어로겔 합성물은 적어도 하나의 산화 금속 매트릭스와 섬유상 물질을 내부에 포함하고, 상기 절연 구조체는 실질적인 균열없이 적어도 90°와 1/2 인치 미만의 굽힘 반경으로 구부러질 수 있다.
에어로겔, 절연, 진공, 밀봉 |
194 |
에어로겔함유복합재료및이의제조방법 |
KR1019970701251 |
1995-08-17 |
KR100385829B1 |
2003-10-22 |
프랑크디르크; 침머만안드레아스 |
PCT No. PCT/EP95/03274 Sec. 371 Date Feb. 20, 1997 Sec. 102(e) Date Feb. 20, 1997 PCT Filed Aug. 17, 1995 PCT Pub. No. WO96/06808 PCT Pub. Date Mar. 7, 1996The present invention relates to mat-shaped composites having porosities above 60% and densities below 0.6 g/cm3, comprising an aerogel and fibers dispersed therein, the aerogel having cracks and the aerogel fragments enclosed by the cracks, whose average volume is 0.001 mm3 to 1 cm3, being held together by the fibers. The present invention further relates to processes for producing the composites of the invention and to their use. |
195 |
Coating material with reflective properties |
KR19977004888 |
1997-07-18 |
KR19987001497A |
1998-05-15 |
HUGO GERD |
|
196 |
AEROGEL COMPOSITIONS AND METHODS OF MAKING AND USING THEM |
PCT/US2010032235 |
2010-04-23 |
WO2010129200A4 |
2010-12-29 |
BAUER ULRICH; DOSHI DHAVAL A |
Compositions include an aerogel component and have low thermal conductivity. Methods for preparing slurries or composites include, for example combining the aerogel component with a surfactant, binder and other ingredients, such as, for instance, fibers. The compositions can be slurries that can be used in coating applications or self supporting rigid composites. |
197 |
LOW VOC JOINT COMPOSITION |
PCT/US2009056174 |
2009-09-08 |
WO2010042286A3 |
2010-06-10 |
FRANCIS HUBERT C |
A drying type, low VOC filler or joint composition that when mixed with water to produce a wet, paste-like mixture, can be spread easily to fill wallboard joints and other wallboard surface defects and imperfections; dries to a solid mass and can be sanded to a smooth finish. |
198 |
LIQUID FORMULATION OF MICROPOROUS THERMAL INSULATION MATERIAL, METHOD OF MANUFACTURE, AND USE THEREOF |
PCT/GB2009000084 |
2009-01-14 |
WO2009093002A3 |
2009-10-15 |
ABDUL-KADER ORAS KHALID; HEYMANS LUC |
A liquid formulation of a microporous thermal insulation material comprises an emulsion including an opacifier, a microporous thermal insulating material in a proportion ranging from 10 to 90 percent by weight of the combination of opacifier and microporous thermal insulating material, water, a binder, and a dispersion agent. The formulation may be made by preparing a dry, fibre-free mixture of a microporous thermal insulating material and an opacifier in a proportion ranging from 10 to 90 percent by weight microporous material, and mixing together the dry mixture with water, a binder and a dispersion agent to form an emulsion. A microporous thermal insulation material may be made by impregnating a fibrous mat with the emulsion, and drying the impregnated mat. |
199 |
VERFAHREN ZUR HERSTELLUNG EINES HYDROPHOBEN WÄRMEDÄMM-FORMKÖRPERS |
EP14180309.8 |
2014-08-08 |
EP2982660B1 |
2018-10-10 |
Albinus, Uwe; Dänner, Johannes; Dannehl, Manfred; Schindler, Matthias; Gärtner, Gabriele |
|
200 |
MINERALSCHAUM UND VERFAHREN ZU SEINER HERSTELLUNG |
EP11714911.2 |
2011-03-03 |
EP2542512B1 |
2016-11-23 |
DUCIA, Falco |
|