| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | THERMOPLASTIC RESIN FINELY-FOAMED REFLECTIVE SHEET, LIGHT-REFLECTING PLATE, BACKLIGHT PANEL, AND METHOD OF PRODUCING THE FOAMED REFLECTIVE SHEET | US14330325 | 2014-07-14 | US20140322505A1 | 2014-10-30 | Hideyuki IKEDA; Kojiro INAMORI; Masaki ONDA; Kazuhiro KIMURA |
| A thermoplastic resin finely-foamed reflective sheet, containing: a foamed layer; and non-foamed layers, each of which has a thickness of 150 μm or less and 30 μm or more, and which are provided one above the other while sandwiching the foamed layer between the non-foamed layers, wherein the thermoplastic resin finely-foamed reflective sheet has an integrated structure, wherein the foamed layer is a thermoplastic resin finely-foamed product having a homogeneous bubble structure, in which an average bubble diameter is 10 μm or less and 0.5 μm or more, and in which a bubble number density is 1×106/mm3 or more and 1.0×1012/mm3 or less, and wherein at least one of the non-foamed layers comprises a functionality-providing layer. | ||||||
| 62 | Method of Making A Composite Sandwich Structure and Sandwich Structure Made Thereby | US12779381 | 2010-05-13 | US20110281114A1 | 2011-11-17 | Geoffrey A. Butler |
| A composite sandwich structure is made by compacting a first multi-ply composite facesheet and assembling a layup, including sandwiching a core between the compacted first facesheet and a second multi-ply composite facesheet. The layup is compacted and the first and second facesheets are co-cured with the core. | ||||||
| 63 | Microperforated metal foil | US11956441 | 2007-12-14 | US07838125B2 | 2010-11-23 | Marc Pelzer; Stefan Janzen |
| The invention relates to a microperforated metal foil and to a process for the preparation thereof which is characterized in that a self-supporting metal foil is perforated with a needle-punching machine. | ||||||
| 64 | CHANNELED APERTURED FILM AND PERSONAL CARE ARTICLES CONTAINING THE FILM | US12432007 | 2009-04-29 | US20100280471A1 | 2010-11-04 | Ashok Harakhlal Shah |
| An absorbent personal care article comprising an apertured polymer film having a first series of channels, each having a length, width and depth, on a first surface thereof and apertures having diameters at the bottoms of and along the length of said channels, said apertures extending through the thickness of the film and through a second surface of said film; and an absorbent core disposed against said second surface of said apertured film. | ||||||
| 65 | PROCESS FOR THE PRODUCTION OF POLYURETHANE MOLDED ARTICLES | US12206366 | 2008-09-08 | US20090001626A1 | 2009-01-01 | Hans-Guido Wirtz; Achim Symannek; Reiner Paul; Dirk Wegener |
| The present invention relates to a process for the production of polyurethane molded articles in which the polyurethane-forming mixture applied to reinforcing fiber layer(s) or a reinforcing fiber mat includes a gas and a foam stabilizer. These molded articles are useful in automotive and construction applications and in furniture. | ||||||
| 66 | 단열성 충전재를 위한 배플 구조체 | KR1020167024834 | 2016-02-29 | KR101919676B1 | 2018-11-16 | 매시라이언타일러; 올슨코리마이클 |
| 본발명의요지는일반적으로의복및 침낭과같은소비재에사용하기위한성형배플구조체에관한것이다. 특정양태에서, 성형배플들은배플들이 2개이상의레벨로오프셋되는멀티레벨배플구조로배열된다. 특정양태에서, 전체구조체는일체로직조된무봉직구조이다. | ||||||
| 67 | 폴리우레탄 성형품의 제조 방법 | KR1020050053479 | 2005-06-21 | KR101285929B1 | 2013-07-12 | 비르츠,한스-구이도; 지만넥,아힘; 파울,라이너; 베게너,디르크 |
| 본 발명은 강화용 섬유층(들) 또는 강화용 섬유 매트에 도포되는 폴리우레탄-형성 혼합물이 기체 및 기포 안정제를 포함하는 폴리우레탄 성형품의 제조 방법에 관한 것이다. 이러한 성형품은 자동차 및 건설 용도에 및 가구에 유용하다. 폴리우레탄 성형품, 강화용 섬유층, 강화용 섬유 매트 | ||||||
| 68 | INTERNALLY REINFORCED AEROGEL AND USES THEREOF | EP16787626.7 | 2016-10-06 | EP3370952A1 | 2018-09-12 | SAKAGUCHI, Alan; POE, Garrett; MERWIN, Michael; KOLDAN, Kenneth |
| Internally reinforced aerogels, articles of manufacture and uses thereof are described. An internally reinforced aerogel includes an aerogel having a support at least partially penetrating the aerogel and having the aerogel penetrating the porous structure of the support. | ||||||
| 69 | VERFAHREN ZUR HERSTELLUNG VON ZUMINDEST ZWEILAGIGEN SCHAUMSTOFFPLATTEN UNTER VERWENDUNG MINDESTENS EINER DÜNNEREN SCHAUMSTOFFPLATTE MIT METALLDECKSCHICHTEN | EP16182620.1 | 2016-08-03 | EP3278978A1 | 2018-02-07 | Merkel, Peter; Hahn, Christoph Oliver; Diehlmann, Tim; Dietzen, Franz-Josef; Kiciak, Thomas |
Die vorliegende Erfindung betrifft ein Verfahren zur Herstellung von zumindest zweilagigen Schaumstoffplatten durch Verbinden von mindestens einer dünneren thermoplastischen Schaumstoffplatte (TS) und mindestens einer dünneren Schaumstoffplatte (NS) als Ausgangsplatten. Die dünnere Schaumstoffplatte (NS) weist an zwei sich gegenüberliegenden Seiten jeweils eine Metalldeckschicht auf, wobei eine Metalldeckschicht in der durch das erfindungsgemäße Verfahren erhaltenen zumindest zweilagigen Schaumstoffplatte nach dem Verbinden sich zwischen jeweils einer der beiden vorgenannten dünneren Ausgangsplatten (TS) und (NS) befindet. Die dünnere Schaumstoffplatte (NS) kann eine thermoplastische oder eine nichtthermoplastische Schaumstoffplatte, beispielsweise eine duroplastische Schaumstoffplatte, sein. Weiterhin betrifft die vorliegende Erfindung die zumindest zweilagige Schaumstoffplatte als solche sowie deren Verwendung zur Wärmedämmung. Die Anzahl der Lagen der zumindest zweilagigen Schaumstoffplatte als solche ergibt sich aus der Anzahl der dünneren Schaumstoffplatten (NS) und (TS), die miteinander verbunden, vorzugsweise thermisch miteinander verschweißt, werden. Wenn beispielsweise drei dünnere Schaumstoffplatten miteinander verbunden werden, wird eine dreilagige Schaumstoffplatte als solche erhalten, im Fall von vier dünneren Schaumstoffplatten ergibt sich demzufolge eine vierlagige Schaumstoffplatte als solche. |
||||||
| 70 | VACUUM INSULATION PANEL WITH INCREASED INSULATION EFFECTIVENESS | EP15820911.4 | 2015-10-23 | EP3224043A1 | 2017-10-04 | YUSUFOGLU, Yusuf |
| The present invention relates to a vacuum insulation panel (1) comprising a core material (2) with open porous structure and a barrier (3) that holds the core material (2) together. The open porous core material (2) is filled into a barrier (3) preferably together with a getter material, depending on the material properties forming the core material (2) and vacuumed. Thus, a vacuum insulation panel (1) is realized comprising the open porous core material (2) having low thermal conductivity coefficient, with increased insulation effectiveness. | ||||||
| 71 | THERMOPLASTIC-RESIN-MICROFOAM REFLECTIVE SHEET, OPTICAL REFLECTION PLATE, BACKLIGHT PANEL, AND METHOD FOR PRODUCING FOAM REFLECTIVE SHEET | EP13828107 | 2013-08-06 | EP2884313A4 | 2016-01-20 | IKEDA HIDEYUKI; INAMORI KOJIRO; ONDA MASAKI; KIMURA KAZUHIRO |
| A thermoplastic resin finely-foamed reflective sheet, containing: a foamed layer; and non-foamed layers, each of which has a thickness of 150 µm or less and 30 µm or more, and which are provided one above the other while sandwiching the foamed layer between the non-foamed layers, wherein the thermoplastic resin finely-foamed reflective sheet has an integrated structure, wherein the foamed layer is a thermoplastic resin finely-foamed product having a homogeneous bubble structure, in which an average bubble diameter is 10 µm or less and 0.5 µm or more, and in which a bubble number density is 1×10 6 /mm 3 or more and 1.0×10 12 /mm 3 or less, and wherein at least one of the non-foamed layers comprises a functionality-providing layer. | ||||||
| 72 | VERFAHREN ZUM FORMEN EINES BÖRDELFALZES IN EIN MEHRLAGIGES VERBUNDMATERIAL SOWIE MEHRLAGIGES, MINDESTENS EINEN BÖRDELFALZ AUFWEISENDES VERBUNDMATERIAL | EP09742004.6 | 2009-04-28 | EP2271447A1 | 2011-01-12 | Böger, Thorsten; Hilfrich, Erik; Kleinschmidt, Oliver |
| It is the object of the present invention to provide a method for forming a crimping fold in a multi-layer composite material, which comprises at least one core layer made of a plastic and at least two cover layers made of a metal material, said method ensuring high process reliability and optimal integrity of the formed multi-layer composite material. The object is achieved in that, in the region of the crimping fold to be formed, the core layer of the composite material is heated at least in some sections to a temperature of 180ºC to 300ºC. The invention further relates to a multi-layer composite material (2) having at least one crimping fold, said material comprising at least one core layer (4) made of a plastic and at least two cover layers (6, 8) made of a metal material. | ||||||
| 73 | CELLULAR GLASS CORROSION UNDER INSULATION SYSTEM | EP16821962.4 | 2016-07-07 | EP3319791A1 | 2018-05-16 | BADGER, Steven, Robert |
| A cellular glass system for an outer surface of a pipe. An insulation layer surrounds the outer surface of the pipe. The insulation layer has an outer surface and an inner surface and comprises cellular glass. A foam fills an annular space between the outer surface of the pipe and the inner surface of the insulation layer and is configured to limit water intrusion into the annular space and attenuate sound. The system may also include another insulation layer and another foam layer between the two insulation layers. | ||||||
| 74 | FIRE RETARDANT LAMINATES | EP15794668.2 | 2015-10-12 | EP3215360A1 | 2017-09-13 | KURIAN, Joseph, V. |
| Fire retardant laminates including a textile layer, a protective layer, and a fire retardant are provided. The protective layer includes a porous membrane and a coating layer. The porous membrane is positioned between the textile layer and the coating layer. The fire retardant includes one or more phosphonate esters of the general formula: where n=0 or 1, R1 and R2 are C1-C4 alkyl, R3 is H or C1-C4 alkyl, and R4 is a linear or branched alkyl. At least a portion of the phosphonate ester in the fire retardant laminate resides in the coating layer. The fire retardant laminates are suitable for use in protective garments that provide full flammability and burn protection, even after exposure to flammable materials such as petroleum, oils, and lubricants. A method of rendering the fire retardant laminate fire retardant is also provided. | ||||||
| 75 | PROCESS FOR MANUFACTURING A HONEYCOMB STRUCTURED PANEL AND PRODUCT OBTAINED THEREFROM | EP14828506.7 | 2014-12-04 | EP3079908A1 | 2016-10-19 | Paulon, Franco |
| A process for manufacturing a honeycomb structured panel and a so obtained honeycomb structured panel is described. The honeycomb structured panel (8) is composed of a first central body (9) and an external body (10), applied on to the entire longitudinal and transversal surface of the central body (9), and formed by two flat component elements (11, 12) having equal surface, overlapped and joined to each other, of which the first central component element (11) is formed by at least a flat layer of wooden material such as for example chipboard, MDF, plywood or the like, and the second covering component element (12) is constituted by at least a flat layer having the width equal to the previous component element (11), which may be obtained with different foldable materials such as for example paper, leather, wood, metal etc.. with protective film. | ||||||
| 76 | THERMOPLASTIC-RESIN-MICROFOAM REFLECTIVE SHEET, OPTICAL REFLECTION PLATE, BACKLIGHT PANEL, AND METHOD FOR PRODUCING FOAM REFLECTIVE SHEET | EP13828107.6 | 2013-08-06 | EP2884313A1 | 2015-06-17 | IKEDA, Hideyuki; INAMORI, Kojiro; ONDA, Masaki; KIMURA, Kazuhiro |
A thermoplastic resin finely-foamed reflective sheet, containing: a foamed layer; and non-foamed layers, each of which has a thickness of 150 µm or less and 30 µm or more, and which are provided one above the other while sandwiching the foamed layer between the non-foamed layers, wherein the thermoplastic resin finely-foamed reflective sheet has an integrated structure, wherein the foamed layer is a thermoplastic resin finely-foamed product having a homogeneous bubble structure, in which an average bubble diameter is 10 µm or less and 0.5 µm or more, and in which a bubble number density is 1×106 /mm3 or more and 1.0×1012 /mm3 or less, and wherein at least one of the non-foamed layers comprises a functionality-providing layer. |
||||||
| 77 | BURNTHROUGH PROTECTION SYSTEM | EP11864331.1 | 2011-11-18 | EP2701808A1 | 2014-03-05 | FERNANDO, Joseph, A.; GARVEY, Chad, E.; RIOUX, Robert; MILLER, Kenneth, B. |
| A burnthrough protection system including a fire protection laminate and a foam insulation material, wherein the fire protection laminate includes a fire barrier layer and a buffer layer, the buffer layer being disposed between the fire-barrier layer and the foam insulation material, wherein the buffer layer is adapted to prevent adhesion between the fire barrier layer and the foam insulation at elevated temperature. The burnthrough protection system may be capable of passing the flame propagation and burnthrough resistance test protocols of 14 C.F.R. §25.856(a) and (b), Appendix F, Parts VI and VII. Also, an aircraft including an exterior skin, an interior liner, and the burnthrough protection system disposed between the exterior skin and the interior liner. | ||||||
| 78 | METHOD OF MAKING A COMPOSITE SANDWICH STRUCTURE AND SANDWICH STRUCTURE MADE THEREBY | EP11718534.8 | 2011-03-18 | EP2569142A1 | 2013-03-20 | BUTLER, Geoffrey A. |
| A composite sandwich structure is made by compacting a first multi-ply composite facesheet and assembling a layup, including sandwiching a core between the compacted first facesheet and a second multi-ply composite facesheet. The layup is compacted and the first and second facesheets are co-cured with the core. | ||||||
| 79 | Verfahren zum Formen eines Bördelfalzes in ein mehrlagiges Verbundmaterial | EP09742004.6 | 2009-04-28 | EP2271447B1 | 2012-06-13 | Böger, Thorsten; Hilfrich, Erik; Kleinschmidt, Oliver |
| It is the object of the present invention to provide a method for forming a crimping fold in a multi-layer composite material, which comprises at least one core layer made of a plastic and at least two cover layers made of a metal material, said method ensuring high process reliability and optimal integrity of the formed multi-layer composite material. The object is achieved in that, in the region of the crimping fold to be formed, the core layer of the composite material is heated at least in some sections to a temperature of 180ºC to 300ºC. The invention further relates to a multi-layer composite material (2) having at least one crimping fold, said material comprising at least one core layer (4) made of a plastic and at least two cover layers (6, 8) made of a metal material. | ||||||
| 80 | Verfahren zur Herstellung von Polyurethan-Formkörpern und deren Verwendung | EP05012505.3 | 2005-06-10 | EP1609576A1 | 2005-12-28 | Wirtz, Hans-Guido; Symannek, Achim; Paul, Reiner, Dr.; Wegener, Dirk, Dr. |
Verfahren zur Herstellung von Polyurethan-Formkörpern (B) und deren Verwendung, wobei
|
||||||
QQ群二维码
意见反馈
意见反馈