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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181 | ENHANCED EXPANDED POLYSTYRENE FOAM INSULATION | EP10781026.9 | 2010-05-20 | EP2435508A1 | 2012-04-04 | PETELA, Grazyna; BERGHMANS, Michel; CHEE, Thomas |
Partially expanded closed-cell unmatured polystyrene bead with a partial vacuum within the cells inside the bead, which may be coated with an air impervious coating to retain a partial vacuum inside cells for a prolonged period of time. The resulting bead has improved thermal insulating properties and may be used for insulation. | ||||||
182 | PACKAGING MATERIALS WITH ENHANCED THERMAL-INSULATING PERFORMANCE | EP10719851.7 | 2010-05-05 | EP2427328A1 | 2012-03-14 | BABINSKY, Vladislav, A.; ARENANDER, Sven, S.; NEWMAN, Dobbie, C.; BABCOCK, Bruce, W.; HAWES, David, H. |
A packaging material with enhanced thermal-insulating performance is disclosed that includes a paper-based substrate and a thermal-insulating layer positioned on at least one surface of the substrate. The thermal-insulating layer contains void structure and is derived from a fluid thermal-insulating composition comprising: 20% to 70% weight of filler; 15% to 70% weight of organic binder; 0.5% to 10 weight of plasticizer; and 10% to 15% weight of moisture, based on the total thermo-insulating composition weight. When desired, the disclosed packaging material may further include a paper-based top layer such that the thermal-insulating layer is positioned between the paper-based substrate and the paper-based top layer. The disclosed packaging material may be used in the formation of thermo-insulating containers such as food bowls and beverage cups, as well as the sleeve components to impart thermo-insulating performance to packaging containers. | ||||||
183 | LAMINATE ENTHALTEND HARTE, PLATTENFÖRMIGE MINERALIEN | EP10710231.1 | 2010-03-20 | EP2411219A1 | 2012-02-01 | ROESCH, Norbert |
The invention relates to a laminate containing in the overlay plate-shaped, monocrystalline particles of aluminum oxide having a corundum crystalline lattice. | ||||||
184 | Laminate surface layer without an overlay and method of manufacture | EP08170046.0 | 2008-11-27 | EP2177372A3 | 2010-12-22 | Gottzmann, Andreas M.; Ross, Michael; Shaw, Aaron D. |
A process for the production of a decorative laminate comprising a décor layer (10) formed from a décor sheet (26) comprising a paper sheet impregnated with a thermoset resin and coated with a slurry comprising a thermoset resin (12) and a mix of abrasion resistant particles (14), wherein the mix of abrasion resistant particles comprises elliptical, platelet shaped particles. After the décor sheet (26) is dried, it may be bonded to a core layer, and may serve as an outermost surface layer of the laminate. The decorative laminate is an improvement over the prior art in that it does not need an overlay layer to reduce scratching, scuffing, and marring, thereby, improving the clarity of the laminate. |
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185 | Flexible packaging composites | EP10002798.6 | 2008-08-18 | EP2191965A2 | 2010-06-02 | Tilton, Christopher R. |
The flexible packaging composites include one or more mineral-containing layers with a bonding agent. The composite structure is used as a primary or secondary packaging container or insulating material. In addition to the mineral-containing layer (5), the composite can contain one or more non-mineral containing layers (7), including various combinations of extruded resins, cast or blown films, and fibers. The mineral-containing layer (5) is substantially and continuously bonded to the other layers. The material is designed to form flexible and semi-rigid storage articles at equal or lower costs to prior art solutions while providing a mineral containing layer (5) that is a very smooth, has comparatively high plasticity, and having a high quality printing surface not requiring Corona Treatment.; The composite structure has advantages including a high degree of pliability and flexibility, a minimum 37 dyne level on the surface of the mineral containing layer,- a mineral containing layer that is highly 84 opaque, and has a bright, white printing surface that readily accepts coating and inks, therefore, rendering it highly attractive to consumers. |
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186 | METHOD AND SYSTEM FOR PRODUCING AN ARTICLE MADE OF TISSUE PAPER OR THE LIKE COMPRISING A SUPERABSORBENT MATERIAL | EP06701595.8 | 2006-01-17 | EP1844195A1 | 2007-10-17 | GELLI, Mauro; MARSILI, Mauro, Via S. Giusto di Brancoli 1841/E; GIACHETTI, Fabio |
A method for producing an article made of a web material, comprising at least one ply, wherein a superabsorbent material in powder form is associated with said ply. | ||||||
187 | A PACKAGING UNIT FOR PROTECTING ELECTRONIC COMPONENTS FROM ELECTROSTATIC DISCHARGE, PAPER FOR A PACKING UNIT AND A METHOD OF MANUFACTURING SAID PAPER | EP02766715.3 | 2002-04-26 | EP1383690B1 | 2006-06-21 | ULFHEIM, Lars-Anders; THORÉN, Stefan |
The present invention relates to a packaging unit, particularly a packaging unit for protecting electronic components against electrostatic discharge, said packaging unit being formed of a cardboard material made of several layers of paper. The cardboard material incorporates an outer paper layer (2) forming the exterior of the packaging unit and having conductive properties, said paper layer (2) containing particles (5) which are conductive and uniformly dispersed in the paper layer (2). The cardboard material further incorporates an inner paper layer (6) forming the interior of the packaging unit and having electrostatic dissipative properties. The invention also relates to a paper incorporated in a packaging unit and a method to produce such a paper in a paper manufacturing machine. | ||||||
188 | Moisture resistant frozen food packaging using an over-print varnish | EP97401247.8 | 1997-06-04 | EP0811508A1 | 1997-12-10 | Claytor, Robinson Camden Perkins |
This invention relates to moisture resistant packaging, usable notably for frozen-food, using highly-sized paperboard and press applied moisture resistant over-print varnishes. Such structures of this type, generally, employ a moisture-resistant coating which is placed between the food product and the paperboard in order to provide a barrier for the food from the board and also to prevent the paperboard from absorbing moisture. Also, edge-wick moisture absorption is minimised by the use of a highly-sized sheet. |
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189 | Composite panel | EP93303146.0 | 1993-04-22 | EP0568270B1 | 1997-07-09 | Symons, Michael Windsor |
190 | FILM COMPOSITE | EP94901119.1 | 1993-11-17 | EP0670780B1 | 1996-05-01 | MUNOZ MADRID, Francisco |
A film suitable for continuous application to particle boards in the making of laminated particle board is disclosed, which film is steam penetrable and impregnated with semi-cured impregnating resins and provided with a partially cured layer of glue on one side and a fully cured lacquer layer on the other side, which film is permeable to gases generated during production of laminated particle board. A process for producing such a film is also disclosed and also a method for producing a laminated particle board by means of a continuous direct lamination process. | ||||||
191 | Verfahren zur Herstellung von farbigen melaminharzhaltigen Dekorpapierfolien mit einer dreidimensionalen Oberflächenstruktur | EP84104293.0 | 1984-04-16 | EP0123252A1 | 1984-10-31 | Diesel, Hans-Dieter, Dr. Dipl.-Chem.; Schmidt, Hans Joachim; Sauer, Burkhard |
Verfahren zur Herstellung von farbigen melaminharz-haltigen Dekorpapierfolien mit einer dreidimensionalen Oberflächenstruktur durch Bedrucken der Papierfolien mit einem Muster und Überlackieren, wobei eine wäßrige Druckfarbe verwendet wird und die Druckfarbe, die an den Bereichen aufgedruckt wird, an denen die Lackschicht dünner als an den anderen Bereichen ist, ein lackabstoßendes Mittel enthält, und wobei die bedruckte und getrocknete Papierfolie mit einer wäßrigen Imprägnierung eines Melaminharzes von der unbedruckten Seite her unter Ausbildung eines einseitigen Harzüberstandes imprägniert und gegrocknet, die bedruckte und imprägnierte Folie auf der bedruckten Seite mit einem wäßrigen, auf Melaminharzen basierendem Lack lackiert und die lackierte Folie bei erhöhter Temperatur ohne Einwirkung von Druck gehärtet wird. |
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192 | 분말 오버레이를 포함하는 빌딩 패널을 제작하는 방법 | KR1020127028514 | 2011-04-12 | KR101850921B1 | 2018-04-20 | 페르반,다르코; 지에글러,괴란 |
투명한내마모성표면층(1)을제작하는방법이기술되어있다. 본방법은캐리어상에장식재료를적용하는단계, 상기장식층 위에가공된목재섬유, 결합제및 내마모성입자의혼합물을포함하는건조분말층을적용하는단계, 상기혼합물에열 및압력을가하여상기혼합물을투명한내마모성층을포함하는장식표면으로경화시키는단계를포함한다. 바람직한구체예에서, 본방법은엠보싱된매트릭스에대해혼합물을가압하여높은내마모성을갖는엠보싱된장식표면을형성시키는단계를포함한다. | ||||||
193 | 감열 기록 재료 | KR1020157025409 | 2014-03-06 | KR1020150119351A | 2015-10-23 | 이와타다이키; 가지카와다케시; 아이하라히데오 |
지지체; 언더층; 감열기록층; 및보호층을포함하고, 언더층, 감열기록층, 및보호층이지지체의적어도한면에이 순서로제공되며, 지지체가합성지또는합성수지필름이며, 언더층이결착수지및 중공입자를함유하고, -20℃에서의감열기록재료의접착력이개시된접착력측정방법으로측정하여 10.0 N/25 mm 이상인감열기록재료를제공한다. | ||||||
194 | Thermosetting resin decorative laminate of inclusion polypropylene scrap and method of production thereof | KR20100112145 | 2010-11-11 | KR20120050741A | 2012-05-21 | KIM CHUL HWAN |
PURPOSE: A thermosetting resin decorative board containing recycled polypropylene and a method for manufacturing the same are provided to improve workability and to reduce the weights of interior materials and exterior materials for construction. CONSTITUTION: A thermosetting resin decorative board(100) includes a plurality of craft core layers(10, 10a). The craft core layers are obtained by impregnating a phenol resin into a plurality of craft paper units. Recycled polypropylene chips or pellets are stacked in the craft core layers to form a polypropylene sheet layer(20). Recycled polypropylene products are pulverized to obtain the chips, and the particle sizes of the chips are in a range between 1 and 20mm. The pellets are obtained by dissolving the chips and pelletizing the dissolved chips, and the particle size of the pellets are in a range between 0.5 and 10mm. A decorative layer(40) is stacked on the upper side of a second craft core layer. A plurality of sheets(30, 30a) is arranged between the sheets and the core layers. | ||||||
195 | 특히 가구 제작용인 성형 복합 물품 | KR1020107022535 | 2009-03-02 | KR1020100139007A | 2010-12-31 | 벨린,잉고; 쉬프스,카르스텐; 한,클라우스; 바인쾨츠,스테판; 가싼,요헨; 아쓰만,옌스 |
본 발명은 코어 층 및 하나 이상의 추가적인 층을 포함하며, 상기 코어 층은 a1) 5 내지 100 중량% (A 기준)의 스티렌/아크릴로니트릴 공중합체, a2) 0 내지 95 중량% (A 기준)의 α-메틸스티렌/아크릴로니트릴 공중합체 및/또는 α-메틸스티렌/스티렌/아크릴로니트릴 삼원공중합체를 함유하는 5 내지 100 중량%의 SAN 성분 (A), 0 내지 95 중량%의 폴리스티렌 (B), 및 0 내지 95 중량%의, (A) 및 (B)와 상이한 열가소성 중합체 (C)를 함유하는 팽창가능한 열가소성 중합체 과립으로부터 예비-발포된 발포체 입자를 융합시킴으로써 수득되는 성형 입자 발포체 물품인, 특히 가구 제작용의 성형 복합 물품에 관한 것이다. | ||||||
196 | 가요성 패키징 복합체들 | KR1020107005859 | 2008-08-18 | KR1020100059876A | 2010-06-04 | 틸튼,크리스토퍼알. |
The flexible packaging composites include one or more mineral-containing layers with a bonding agent. The composite structure is used as a primary or secondary packaging container or insulating material. In addition to the mineral-containing layer (5), the composite can contain one or more non-mineral containing layers (7), including various combinations of extruded resins, cast or blown films, and fibers. The mineral-containing layer (5) is substantially and continuously bonded to the other layers. The material is designed to form flexible and semi-rigid storage articles at equal or lower costs to prior art solutions while providing a mineral containing layer (5) that is a very smooth, has comparatively high plasticity, and having a high quality printing surface not requiring Corona Treatment. The composite structure has advantages including a high degree of pliability and flexibility, a minimum 37 dyne level on the surface of the mineral containing layer,-a mineral containing layer that is highly 84 opaque, and has a bright, white printing surface that readily accepts coating and inks, therefore, rendering it highly attractive to consumers. | ||||||
197 | 물품들을 포장하기 위한 복합체들 및 그를 제조하는 방법 | KR1020107005858 | 2008-08-18 | KR1020100059875A | 2010-06-04 | 틸튼,크리스토퍼알. |
The present invention is directed to an unexpectedly unique environmentally friendly composite material structure (22) and storage article fabricated therefrom. The composite structure (22) includes a fiber-containing layer (24), such as a f iberboard layer or other layer having fibers from natural and/or synthetic sources, and a mineral-containing layer (26) covering the fiber-containing layer (24). The mineral-containing layer (26) is substantially continuously bonded to the fiber-containing layer (24) along the surface (25) of the fiber-containing layer (24). The fiber-containing layer (24) and mineral-containing layer (26) can be shaped, sized and manufactured such that the composite structure (22) formed therefrom is capable of being machined to form the storage article. The composite structure (22) has advantages in that it has a high degree of pliability and flexibility that is increased over the pliability of the fiber-containing layer (24) alone, which renders it highly attractive to consumers. | ||||||
198 | 내마모성 라미네이트 및 이를 제조하는 방법 | KR1020017008867 | 2000-01-12 | KR1020010101508A | 2001-11-14 | 카람프로드토컴 |
본발명은내마모성표면을가지는라미네이트패널에관한다. 이라미네이트패널은열경화성수지, 하부피복물및 내마모성상부피복물, 기판이포함되고제1면의반대쪽기판의제2면에열-융합하는웹을포함한다. 이웹은기판의한면에열-융합되고하부시트가동시에기판의반대면에열-융합된다. 또한내마모성라미네이트패널을제조하는방법에도관한다. 이방법은종이또는웹을열경화성수지로부분적으로함침시키는단계, 이것을건조시키는단계, 부분적으로함침된종이시트및 웹의상부면을내마모성피복물로피복시키는단계, 동시에종이시트또는웹의하부면을열경화성수지조성물로피복시키는단계, 피복된종이시트또는웹을기판의제1면및 하부시트에열-융합시켜라미네이트패널을제조하는단계를포함한다. | ||||||
199 | 복합 필름 | KR1019950701951 | 1993-11-17 | KR100163470B1 | 1998-12-15 | 무노즈마드리드프란시스코 |
적층 입자판지 제조시 판지에 연속접착시키기에 적절한 필름을 발표하며 이 필름은 증기투과성이고 반-경화된 침거수지에 침지시키며 필름 한면에 부분경화 아교층을 다른 한면에 완전경화 래커층을 공급하고 이 필름은 적층 입자판지 제조시 형성된 기체에 대한 투과성을 갖는다. 필름 제조방법과 또한 연속 직접식 적층공정에 따른 적층 입자판지 제조방법도 발표한다. | ||||||
200 | FIBRE BASED PANELS WITH A WEAR RESISTANCE SURFACE | PCT/EP2008065489 | 2008-11-13 | WO2009065769A3 | 2009-09-03 | PERVAN DARKO; LINDGREN KENT; JACOBSSON JAN; HAAKANSSON NICLAS; BOUCKE EDDY; ZIEGLER GOERAN |
A flooring panel (1) comprising a core (6) and a surface layer (5), the surface layer (5) comprising cork particles (14) or wood fibres (14) comprising lignin resin, melamine resin as binder (19), colour pigments (15), and aluminium oxide as wear resistant particles (12), all components being homogenously mixed, and the core (6) comprising fibres and binder and being provided with a mechanical locking system (4) at its edges and a rear balancing layer (7). Also disclosed is a method of manufacturing said flooring panel by - homogenously mixing the dry particles of the surface layer; - scattering them on an embossed pressure matrix; - applying the core layer as scattered or prefabricated layer on the surface layer; - applying a balancing layer as scattered or prefabricated layer on the core layer; - pre-pressing the panel; - printing and brusching the surface layer; - forming the panel by a further pressing and heating step; - machining the mechanical locking system. |