| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Method and apparatus for supplying bulk rigid frictional material and similar article | JP11451381 | 1981-07-23 | JPS5757135A | 1982-04-06 | EDOWAADO MONEGAN |
| 102 | JPS4947001B1 - | JP8552868 | 1968-11-21 | JPS4947001B1 | 1974-12-13 | |
| 103 | PROCESS AND APPARATUS FOR SILICON BOAT, SILICON TUBING AND OTHER SILICON BASED MEMBER FABRICATION | PCT/US0229516 | 2002-09-19 | WO03024876A2 | 2003-03-27 | PANDELISEV KIRIL A |
| Process, apparatus and application of silicon/silicon alloy/silicon compound 10 comprising at least one silicon atom boat, silicon/silicon alloy/silicon compound 10 comprising at least one silicon atom made epitaxial chamber and various silicon/silicon alloy/silicon compound comprising at least one silicon atom made tubing and liners is described here. Powder pressing 12-16, plasma and non plasma powder deposition, slurry deposition and slurry casting, silicon/silicon alloy casting and directional solidification are among few methods described here. Silicon/silicon alloy 10 made articles and some of their applications in the wafer processing industry is also described. | ||||||
| 104 | 연료전지용 분리판 및 그 제조 방법 | KR1020080038460 | 2008-04-25 | KR101090704B1 | 2011-12-08 | 서정도; 김세훈; 이성호; 안병기; 임태원; 이대길; 김성수; 유하나; 황인욱 |
| 이를위해, 본발명은장섬유강화복합재료의원재료를반경화상태로구비하는제1단계와; 상기원재료를분리판의길이와형상으로형성하는제2단계와; 상기분리판의길이대로잘라진복수개의원재료를적층부착시키는제3단계와; 상기원재료가단수또는복수개의층으로적층된것을고온핫프레스에배치하여가열/가압시키는제4단계와; 상기가열/가압된분리판으로부터불필요한부분을잘라주는마무리하는제5단계와; 최종제조된분리판을후경화처리하는제6단계; 를포함하는것을특징으로하는연료전지용분리판제조방법을제공한다. | ||||||
| 105 | 섬유 강화 열가소성 수지 성형체, 성형 재료, 및 그 제조 방법 | KR1020087023017 | 2007-02-19 | KR1020080114750A | 2008-12-31 | 무라이쇼지; 혼마마사토 |
| Disclosed is a fiber-reinforced thermoplastic resin molded article which comprises a thermoplastic resin and a monofilamentous carbon fiber contained in the thermoplastic resin in a high content, wherein the carbon fiber has a long fiber length and is arranged randomly. Also disclosed is a molding material comprising a monofilamentous carbon fiber and a monofilamentous thermoplastic resin fiber, wherein the carbon fiber is contained in a high content, has a long fiber length, and is arranged randomly. Further disclosed is a method for production of a fiber-reinforced thermoplastic resin molded article, wherein the method comprises subjecting the molding material to compression molding. ® KIPO & WIPO 2009 | ||||||
| 106 | 성형체 | KR1020067023512 | 2006-05-17 | KR1020080010258A | 2008-01-30 | 오사키마사유키 |
| Disclosed is a molded body mainly composed of an inorganic powder and containing an inorganic fiber, an organic fiber, a thermosetting resin and a thermoexpansible particle. The thermoexpansible particle is preferably contained in an amount of 0.5-10% by mass relative to the total mass of the inorganic powder, the inorganic fiber, the organic fiber, the thermosetting resin and the thermoexpansible particle. It is also preferable that the inorganic powder, the inorganic fiber, the organic fiber and the thermosetting resin are respectively composed of graphite, a carbon fiber, a pulp fiber and a phenol resin. | ||||||
| 107 | 마찰부재의 제조방법 | KR1020060082268 | 2006-08-29 | KR100776485B1 | 2007-11-29 | 치바마사노리; 이쉬이야수지 |
| 본 발명의 과제는 마찰부재의 품질을 유지하면서, 특수한 성형 틀(成形型)을 사용하지 않고, 성형공정의 대폭적인 시간단축이 실현가능한 마찰부재의 제조방법을 제공하는 것이다. 본 발명의 해결수단은 마찰재 원료로 되는 성형재료를, 성형 틀 내에 가압·가열하는 성형공정을 거쳐서 성형하는 마찰부재의 제조방법에 있어서, 그 성형공정의 형 온도를 190~230℃도, 더욱이 압력을 100~200MPa로 하는 것을 특징으로 하는 마찰부재의 제조방법. 마찰부재 | ||||||
| 108 | 마찰부재의 제조방법 | KR1020060082268 | 2006-08-29 | KR1020070029050A | 2007-03-13 | 치바마사노리; 이쉬이야수지 |
| A method of manufacturing a friction material is provided to keep the quality of the friction material and cut down the molding process time without using any special molding frame. A method of manufacturing a friction material(4) contains a step of pressing and heating the molding material which is a raw material of the friction material in the molding frame. The mold temperature of the molding process is 190~230 degrees, and the pressure is 100~200Mpa. The molding material which is the raw material of the friction material is pressed and heated in the molding frame having upper, center, and lower dies(1,2,3). The center die is formed with a porous material, and the molding material is an assembly. The molding material is pre-heated. | ||||||
| 109 | 가스용기 제조 방법 | KR1020120103013 | 2012-09-17 | KR101374482B1 | 2014-03-13 | 김기동; 권기훈; 이창배 |
| Disclosed is a method of manufacturing a gas vessel including the steps of: (a) producing a liner using a liner blower machine; (b) applying an adhesive to threads of the produced liner; (c) fastening a bushing to the threads of the liner; (d) curing the adhesive naturally by leaving the liner subjected to the step (c) for 30 minutes to 2 hours; (e) heat treating an outer surface of the liner with plasma for liner flaming; (f) fastening a shaft to the liner; (g) mixing a strand of plural glass fibers with resin and a hardener, and winding the strand onto the outer surface of the liner; (h) drying a vessel of composite material subjected to the winding step at 70 to 80°C for 70 to 90 minutes; (i) cooling the vessel of the composite material by leaving it at a room temperature for 15 to 40 minutes to lower the surface temperature of the vessel subjected to the drying/curing step by 35°C or less; (j) separating the shaft from the vessel of the composite material; (k) assembling a valve to the bushing provided to the vessel; and (l) inspecting the state of the gas vessel including the vessel of the composite material. [Reference numerals] (S1) Produce liner; (S10) Separate shaft; (S11) Visual inspection; (S12) Internal pressure inspection; (S13) Drying; (S14) Fasten valve; (S15) Airtight inspection; (S2) Apply adhesive onto threads of liner; (S3) Fasten boss; (S4) Cure adhesive of boss; (S5) Liner flaming; (S6) Fasten shaft; (S7) Winding; (S8) Drying/curing; (S9) Cooling | ||||||
| 110 | 성형체 | KR1020067023512 | 2006-05-17 | KR101270523B1 | 2013-06-04 | 오사키마사유키 |
| 본 발명의 성형체는 무기분체를 주성분으로 하고, 무기섬유, 유기섬유, 열경화성수지 및 열팽창성입자를 함유하고 있다. 상기 열팽창성입자를, 상기 무기분체, 상기 무기섬유, 상기 유기섬유, 상기 열경화성수지, 및 상기 열팽창성입자의 총질량에 대해, 0.5~10질량% 함유하는 것이 바람직하다. 상기 무기분체, 상기 무기섬유, 상기 유기섬유, 및 상기 열경화성수지가, 각각 흑연, 탄소섬유, 펄프섬유, 및 페놀수지인 것이 바람직하다. 성형체, 무기분체, 무기섬유, 세부, 열경화성수지, 열팽창성입자 | ||||||
| 111 | 연료전지용 분리판 및 그 제조 방법 | KR1020080038460 | 2008-04-25 | KR1020090112771A | 2009-10-29 | 서정도; 김세훈; 이성호; 안병기; 임태원; 이대길; 김성수; 유하나; 황인욱 |
| PURPOSE: A separation plate for a polymer electrolyte membrane fuel cell and a method for manufacturing the same are provided to prepare a separation plate using a hot press or hot roll with relieve and intaglio fluid path pattern for forming hydrogen, air, and cooling water. CONSTITUTION: A method for manufacturing a separation plate for a polymer electrolyte membrane fuel cell comprises the steps of: preparing a raw material(10) of a long fiber reinforced composite in a semi-hardened state; forming the raw material in length and shape of the separation plate(30); attaching single or plural raw materials cut as the length of the separation plate by lamination; heating/pressing the laminate in a hot press(22); cutting unnecessary part from the heated and pressurized separation plate; and postcuring the separation plate. | ||||||
| 112 | 연료전지용 세퍼레이터 및 그 제조방법 | KR1020087025128 | 2007-04-03 | KR1020080109848A | 2008-12-17 | 오타와가즈히코; 하시모토아키라; 이케다노부히코; 호리키겐이치 |
| With respect to a separator for fuel cell produced by press molding of a perform containing expanded graphite as a main raw material so as to excel in conductivity and molding processability, there is employed a scheme to produce the perform through papermaking technique to thereby attain enhancement to mechanical strength, flexibility and gas impermeability properties and also attain weight reduction and compactness realization ensuring suitability for automobile, etc. There is provided a separator for fuel cell produced by press molding of sheet-shaped perform (14) with the use of molding die, wherein the perform (14) is in the form of a sandwich structure obtained by providing a pair of first sheets (14A) produced by papermaking of a raw material containing expanded graphite and, added thereto, a fibrous filler into a sheet material and impregnating of the sheet material with a phenolic resin and thereafter interposing therebetween second sheet (14B) composed of graphite coated with a phenolic resin. ® KIPO & WIPO 2009 | ||||||
| 113 | 고체고분자형 연료전지용 격리판의 제조방법 | KR1020020035363 | 2002-06-24 | KR1020030063070A | 2003-07-28 | 히데끼오니시; 류이치사이토 |
| 고강도이며 고유저항치가 적고 열전도율 및 가스 차폐성이 높은 고체고분자형 연료전지용 격리판의 제조방법을 제공하는 것으로, 소성재료(20)는 카본분말 표면에 페놀수지를 코팅한 것이고, 금속판(30)은 금속의 표면 및 이면에 도금을 한 것이다. 홈 형상의 요철(凹凸)을 갖는 금형 M 내에, 상기 금속판(30)을 배치하고, 이 금속판(30)의 양측에 소성재료(20)를 충전한 후 가열 소성한다. 소성재료(20) 중에는 페놀수지가 균일하게 분산되어 있기 때문에, 제조된 격리판(10)은 균질하게 되고, 그 결과 고강도로 가스 차폐성이 높은 것으로 된다. 또한, 소성에 의하여 연료전지용 격리판(10)의 표면에 산화물이 생기는 일이 없기 때문에 고유저항치가 작다. | ||||||
| 114 | BMC로부터 세라믹 브레이크 디스크를 제조하기 위한 방법 | KR1020037004504 | 2001-09-19 | KR1020030038776A | 2003-05-16 | 에너르트,게르트 |
| 본 발명은 BMC로부터 세라믹 브레이크 디스크(1)를 제조하기 위한 방법에 관한 것으로, 상기 방법은 a) 페놀수지로 이루어진 매트릭스 및 탄소로 이루어진 보강 섬유를 함유하는 BMC-화합물(2)의 제조 단계로서, 탄소 섬유의 길이는 6mm 내지 50mm이며, b) 이동 성형 프로세스 또는 주입 압축 성형 프로세스를 이용하여 상기 BMC 화합물(2)로부터 세라믹 브레이크 디스크의 성형체를 제조하는 단계, c) 기공성 성형 바디를 제조하기 위해 상기 성형체를 열분해 하는 단계, 및 d) 반응 결합된 섬유로 성형 바디를 제조하기 위해 용융물, 바람직하게는 실리콘 용융물을 상기 기공성 성형 바디에 용융 침투시키는 단계를 포함한다. | ||||||
| 115 | 금속 단일 섬유-강화수지 침투 가공재 | KR1019910002212 | 1991-02-09 | KR1019950014662B1 | 1995-12-13 | 오끼쓰마사또요; 아까쓰까쓰네오 |
| 내용 없음. | ||||||
| 116 | MIXTURE OF BENZOXAZINE RESIN AND CYANATE ESTER RESIN FOR PYROLISIS DENSIFICATION OF CARBON-CARBON COMPOSITES | PCT/US2016055249 | 2016-10-04 | WO2017062324A3 | 2017-08-10 | FOWLER GRAY E |
| A method of forming carbon-carbon composites includes molding carbon fibers with a compound comprising a blend of benzoxazine resin and cyanate ester resin; and pyrolyzing the compound to form the carbon-carbon composite. The moulding can be RTM. A carbon-carbon composite includes carbon fibers impregnated with a compound comprising a blend of benzoxazine resin and cyanate ester resin. The benzoxazine resin has preferably a char yield of greater than 65%. | ||||||
| 117 | IMPROVED SLAB OF RESIN-BOUND AGGLOMERATE MATERIALS AND RELATED MANUFACTURING PROCESS | PCT/EP0012424 | 2000-12-08 | WO0145921A3 | 2002-01-10 | TONCELLI MARCELLO |
| Composite product formed by a slab consisting of an agglomerate of granular and filamentous inorganic materials bound with the use of structural resins which is coupled to a foil of thermoplastic material, and manufactured with a process comprising the steps of: a) preparation of a mixture capable of releasing air, i.e. adapted to be de-aerated; b) association to the mixture of a foil of thermoplastic material having hollow protrusions that are closed at their end facing the mixture; c) transfer of the mixture, enclosed between a sheet or tray and a cover, to a press where it is de-aerated and pressed under vacuum in order to obtain the manufactured product in a raw state; d) application of heat to said raw product, while it still is enclosed between the above mentioned sheet or tray and cover, through a pair of heating planes in order to harden the binding resin. | ||||||
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