子分类:
| 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 | 법랑코팅된 금속판의 제조방법, 그 금속판을 이용한 책상판 및 책상 | KR1020140025628 | 2014-03-04 | KR1020150103941A | 2015-09-14 | 원종필 |
| 법랑코팅의 강도 및 기타 물성이 향상될 수 있는 금속판의 제조방법 및, 그 금속판을 이용하여 제조된 책상판 및 책상을 제공함.
상기 방법은, A. 장석 25-30 중량%, 형석 20-25 중량%, 붕사 20-30 중량%, 코발트 5-7 중량%, 규석 15중량%, 맥반석 10 중량%를 혼합하고, 1,400~1,600℃에서 용융 프릿트화하는 것; B. 천연운모석을 600 내지 1,000 메쉬(Mesh)로 밀링가공하는 것; C. 상기 A.에서 얻은 프릿트 80 중량% 및 상기 B.에서 얻은 운모 20 중량% 및 물을 혼합하고 볼밀에 투여하한후 밀링에 의하여 슬립화하여 유약을 제조하는 것; D. 일정 규격으로 절단된 강판의 표면에 상기 C.에서 제조된 유약을 도포하고, 100~200℃에서 건조하고, 810~870℃에서 소성하는 것; 및, E. 착색된 유약을 도포하고 상기 D. 에서의 건조 및 소성작업을 반복하는 것을 포함한다. |
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| 62 | 내피쉬스케일성이 매우 우수한 연속 주조 에나멜링용 강판및 그 제조 방법 | KR1020087011276 | 2006-11-09 | KR101019225B1 | 2011-03-04 | 무라카미히데쿠니; 니시무라사토시 |
| 본 발명은 강판 내에서의 공극 형성능을 향상시키는 것으로 수소 트랩 기능을 증대한, 내피쉬스케일성에 현저하게 우수한 연속 주조 에나멜링용 강판 및 그 제조 방법을 제공하는 것으로, 강 성분을 질량%로, C: 0.010% 이하, Mn: 0.03 내지 1.30%, Si: 0.100% 이하, Al: 0.030% 이하, N: 0.0O55% 이하, P: 0.035% 이하, S: 0.08% 이하, O:0.005 내지 0.085%, B: 0.0003 내지 0.0250%로 하고, 강판 내에 B 또는 Mn의 질량 농도가 다른 일체가 아닌 산화물 또는 일체의 산화물을 존재시킨다. 그 최고 농도와 최저 농도의 비를 1.2 이상으로 하는 것과 동시에 일체가 아닌 경우는 농도가 다른 산화물의 중심 간의 직선 거리를 0.10 ㎛ 이상, 20 ㎛ 이내로, 한편, 양쪽 모두의 산화물의 중심을 연결하는 직선이 압연 방향으로부터 ±10˚이내의 각도가 되도록 존재시킨다. 내피쉬스케일성, 연속 주조 에나멜링용 강판 | ||||||
| 63 | 알루미늄 재질의 포톤 칼라 조리용기 | KR1020080053319 | 2008-06-05 | KR1020090126942A | 2009-12-09 | 김수길 |
| PURPOSE: A cooking container of an aluminum material with four tone colors is provided to improve goods value by expressing an exterior of the cooking container with four colors. CONSTITUTION: A cooking container of an aluminum material with four tone colors comprises hard coating layers(9,9a), a first coating layer(4), a second coating layer(5), a third coating layer(6), and original aluminum layers(7,7a). The hard coating layers are formed on the inner surface of a body(1) and the bottom end of the outer surface. The first coating layer is spread out with a beautiful color and enamel in which corrosion resistance is excellent. The second coating layer is spread out with the other color and enamel in which corrosion resistance is excellent. The third coating layer is formed with a color in which the first coating layer and the second coating layer are mixed. The original aluminum layers are formed on a first concaved groove(2), a second concaved groove, and a third concaved groove. Four colors are spread out on the exterior of the cooking container. | ||||||
| 64 | 내피쉬스케일성이 매우 우수한 연속 주조 에나멜링용 강판및 그 제조 방법 | KR1020087011276 | 2006-11-09 | KR1020080058477A | 2008-06-25 | 무라카미히데쿠니; 니시무라사토시 |
| A steel sheet for continuous cast enameling which has highly excellent unsusceptibility to fishscaling and an enhanced hydrogen-trapping ability obtained by improving the ability to form voids in the steel sheet. The steel sheet contains, in terms of mass%, up to 0.010% C, 0.03-1.30% Mn, up to 0.100% Si, up to 0.030% Al, up to 0.0055% N, up to 0.035% P, up to 0.08% S, 0.005-0.085% O, and 0.0003-0.0250% B as steel components. Oxides which differ in boron or manganese concentration by mass are contained in the steel sheet, the oxides having not been united or having been united. The ratio of the maximum concentration to the minimum concentration thereof is regulated to 1.2 or higher. When the oxides have not been united, they are caused to be present so that the distance between the centers of the oxides differing in concentration is from 0.10 mum to 20 mum and the straight line connecting the centers of the two oxides has an angle which is within ±10° based on the rolling direction. | ||||||
| 65 | 조리용기의제조방법 | KR1019920007775 | 1992-05-08 | KR100203214B1 | 1999-06-15 | 하랄트파슬러 |
| 본 발명은 주요부와 스테인레스강의 베이스 및 열전도성이 뛰어난 베이스 아래에 배치된 충전재로 구성된 조리 용기의 제조방법이다. 상기 충전재의 재질에 따라 적합한 온도에서 펀치와 다이스로된 충격 몰드로 한번 이상의 충격압력을 상기 조립체에 가한다. 따라서 상기 충전재는 상기 용기 베이스와 금속간의 결합을 한다. 상기 주요부는 최소한 한 구역이상에 장식 혹은 기술적 에나멜 작업이 행하여지며, 예를들면 눈에 두드러지게 할 목적으로 에나멜링아크를 사용해서 에나멜 용착물로 상기 주요부에 입히거나 또는 에나멜을 사용한 스토브-에나멜 작업이 제공된다. 상기 에나멜 용착물을 깨끗한 주료부에 입혀지게 된다. 에나멜 용착물을 입힌 상기 조리 용기는 충전재의 재질에 따라 적합한 온도에서 열처리 되어진 후, 상기 조립체에 이전의 장식 혹은 기술적 에나멜 작업이 이루어질때와 동일한 열로부터 중간 냉각을 그치지 않고 충격 압력이 가해진다. | ||||||
| 66 | 생체 적합성 복합 재료 및 그 제조방법 | KR1019870011668 | 1987-10-20 | KR1019900006891B1 | 1990-09-24 | 시게오마루노; 세이지반; 히사시이와다; 하루오이또오 |
| Biocompatible compostie consists of a substrate with a ceramic layer of: a hydroxy-apatite cermamic phase (I) in which Ca:P mol ratio= 1.50-1.75. The surface of the layer is roughened, having voids and exposing (I). The layer pref. comprises sub-layers in which the content of (I) inccreases towards the layer surface; some sub-layers may have th same content of (I) as that of an adjacent sub-layer. The biocompatible composite is useful as biocompatibility and mechanical strength and has low component dissolution. | ||||||
| 67 | フレキシブルガラス/金属箔複合物品およびそれらの製造方法 | JP2016506744 | 2013-04-10 | JP6305515B2 | 2018-04-04 | グアンジュン ジャン; 岡野 知水; ペンシュウ リウ; サンジン キム; シャオフェン シュイ; フリードリヒ ズィーバース; ホセ ツィマー |
| 68 | 構造体及び表面被覆層形成用塗料 | JP2013213250 | 2013-10-10 | JP6285684B2 | 2018-02-28 | 陸田 史幸; 藤田 祐生 |
| 69 | 構造体及び塗料セット | JP2013213251 | 2013-10-10 | JP6177085B2 | 2017-08-09 | 陸田 史幸; 藤田 祐生 |
| 70 | 金属基複合材料及びその製造方法 | JP2012063009 | 2012-03-21 | JP5822766B2 | 2015-11-24 | 藤枝 正; 内藤 孝; 青柳 拓也; 沢井 裕一 |
| 71 | 構造体及び表面被覆層形成用塗料 | JP2013213250 | 2013-10-10 | JP2015074203A | 2015-04-20 | 陸田 史幸; 藤田 祐生 |
| 【課題】表面に溶接ビードや溶接スパッタのような凸部や、エッジ部があっても、平坦部と厚さが大きく異ならない表面被覆層が形成され、断熱性や絶縁性等に優れる構造体を提供する。 【解決手段】金属からなり、表面に平坦部と凸部及び/又はエッジ部とが形成された基材と、前記基材の表面に被覆され、非晶性無機材及び結晶性無機材の粒子を含む表面被覆層とを備えた構造体であって、前記表面被覆層は、前記平坦部を被覆する第1被覆部と、前記凸部及び/又はエッジ部を被覆する第2被覆部とからなり、前記第1被覆部の膜厚に対する前記第2被覆部の膜厚の比(第2被覆部の膜厚/第1被覆部の膜厚)は、0.4以上1.0未満であり、前記表面被覆層の全体に対する前記結晶性無機材の粒子の重量割合は、5〜70重量%であることを特徴とする構造体。 【選択図】図1 |
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| 72 | Enamel coating, coated article, and articles method for coating | JP2011552353 | 2010-03-01 | JP2012519771A | 2012-08-30 | フィク ピーダスン トマス; ヴィーズィンガー リヒャート |
| 本発明は特に、物品(3)の金属表面(5)を被覆するためのエナメル被覆物(7)に関する。 さらなる被覆物層(8)を適切に結合するために必要とされる機械的結合相互作用のために適した表面粗さを得るために、エナメル被覆物(7)は、触媒エナメルと、通常のエナメルおよび熱分解エナメルの少なくとも1つとの混合物を含む。 | ||||||
| 73 | Enamel glazed for processed products, enamel processed goods | JP2008535292 | 2007-08-15 | JP4964889B2 | 2012-07-04 | 英邦 村上; 哲 西村 |
| 74 | ほうろう施釉用加工品、ほうろう加工品 | JP2008535292 | 2007-08-15 | JPWO2008035528A1 | 2010-01-28 | 村上 英邦; 英邦 村上; 西村 哲; 哲 西村 |
| 質量%でC:0.0001〜0.040%、Si:0.0001〜0.50%、Mn:0.001〜2.00%、P:0.0001〜0.10%、S:0.0001〜0.060%、Al:0.0001〜0.10%、N:0.0001〜0.015%、O:0.0001〜0.070%を含有し、更にNi:0.01〜2.00%、Co:0.0005〜2.00%、Cr:0.001〜2.00%、Cu:0.01〜2.00%、Mo:0.0001〜2.00%、Ti:0.0005〜0.50%の一種以上を含み、Ni+Co+Cr/2+Cu+Mo+Ti:0.010〜8.0%であり残部Fe及び不可避的不純物からなる鋼板の表面に当該鋼板成分の酸化物からなる酸化皮膜を厚みで0.1〜400μm有してなる、前処理とグランドコートを省略しても密着性、耐泡・黒点性、耐つまとび性を確保できる、ほうろう施釉用加工品、ほうろう加工品。 | ||||||
| 75 | 耐つまとび性に著しく優れた連続鋳造ほうろう用鋼板およびその製造方法 | JP2007544239 | 2006-11-09 | JPWO2007055400A1 | 2009-04-30 | 村上 英邦; 英邦 村上; 西村 哲; 哲 西村 |
| 本発明は鋼板内での空隙形成能を向上させることで水素トラップ能を増大した、耐つまとび性に著しく優れた連続鋳造ほうろう用鋼板及びその製造方法を提供するもので、鋼成分を質量%でC:0.010%以下、Mn:0.03〜1.30%、Si:0.100%以下、Al:0.030%以下、N:0.0055%以下、P:0.035%以下、S:0.08%以下、O:0.005〜0.085%、B:0.0003〜0.0250%、とし、鋼板内に、BまたはMnの質量濃度が異なる一体でない、または一体の酸化物を存在させる。その最高濃度と最低濃度の比を、1.2以上とするとともに、一体でない場合は、濃度が異なる酸化物の中心間の直線距離を0.10μm以上、20μm以内、かつ、両方の酸化物の中心を結ぶ直線が圧延方向から±10°以内の角度となるように存在させる。 | ||||||
| 76 | Method for applying glass lining | JP2000358944 | 2000-11-27 | JP2002167680A | 2002-06-11 | IIZAWA YOSHIHIRO; SHIRASAKI MASAHIRO; ONO JUNJI |
| PROBLEM TO BE SOLVED: To provide a new method for applying glass lining by which a stable and uniform glass lining layer can be applied to large stainless steel glass lined apparatuses. SOLUTION: The surface of a stainless steel base material is subjected to thermal spray treatment by a thermal spraying material selected from the groups consisting of a stainless steel material same as the base material, Ni metals, Cr metals, Fe metals, Co metals, Ni-Cr alloys and Fe-Cr alloys to form a thermally treated layer. Next, a glass lining layer is formed on the thermally sprayed layer by heat treatment for the glass lining by a ground coat and a cover coat. In this method for applying the glass lining, the surface roughness Rz of the thermally treated layer lies in the range of 5 to 100 μm, and also, the open pore diameter lies in the range of 3 to 60 μm. | ||||||
| 77 | Manufacture of biological compatibility complex | JP21411291 | 1991-08-01 | JPH067425A | 1994-01-18 | MARUNO SHIGEO; BAN SEIJI; IWATA HISASHI; ITO HARUO |
| PURPOSE:To manufacture a complex having numerous holes and exposed with apatite by coating a dispersed mixture of the apatite powder mainly made of glass powder and calcium phosphate on an intermediate glass layer formed on a metal, baking it, then dissolving and etching the glass on the surface. CONSTITUTION:An intermediate glass layer is formed on a metal by coating, the apatite powder mainly made of glass powder and calcium phosphate is mixed and dispersed, this dispersed mixture is coated on the intermediate glass layer and baked, then the glass on the surface is dissolved and etched by acid to manufacture a complex having numerous holes and exposed with apatite mainly made of calcium phosphate. This complex has no brittleness because a metal base has strength, and it is made a stiff complex. Apatite is firmly held by the glass layer, the surface layer has numerous holes, apatite is exposed, and the complex is easily jointed to a biological bone. | ||||||
| 78 | Protection of titanium aluminide surface and glass ceramic coating of this surface | JP21886290 | 1990-08-20 | JPH03170682A | 1991-07-24 | RONARUDO RUISU ANDORASU; JIYON FUREIZAA MAKUDAUERU |
| PURPOSE: To easily apply a reliable oxygen barrier coating on a titanium aluminize surface by applying the continuous glassy coating of alkaline earth silicate glass mainly composed of BaO, SrO, CaO, etc., on this surface and heating the glass surface, thereby crystallizing the coating. CONSTITUTION: A compsn. consisting of by weight % based on oxide, up to about 50% BaO, up to 55% SrO, up to 35% CaO, about 20 to 75%, in total, oxide selected from these, 25 to 60% SiO, 0 to 25% arbitrary components, 0 to 20% MnO and 0 to 30%, in total of other bivalent and trivalent metal oxide is prepd. This compsn. is applied on the titanium aluminide surface, by which the continuous glassy coating of the alkaline earth silicate glass is formed on the substrate. This coating is crystallized by heating and firing. As a result, the coating of the tightly adhesive and dense crystalline glass ceramic having the resistance to oxygen at a temp. up to about 1000°C in an oxygen-contg. environment is formed. COPYRIGHT: (C)1991,JPO | ||||||
| 79 | Enamel sole for iron | JP163690 | 1990-01-10 | JPH02264699A | 1990-10-29 | BURUUNO MOORAN; ANRI PIERA |
| PURPOSE: To enable reducing the coefficient of friction and also to prevent the whole front surface of a sole from being sensitive to dyeing by permitting the front surface to include embossing enamel strips which are substantially parallel and also extend in the longitudinal direction of the sole. CONSTITUTION: The front surface includes the embossing enamel strips 4 which are substantially parallel and extend in the longitudinal direction of the sole. The edges of the strips 4 are made to be round and the strips 4 are adapted to an enamel layer 3. Besides, the strips 4 are manufactured by sintering the composition of enamel particles. Moreover, the composition of the enamel particles which can be made into glass are sprayed on the enamel layer 3 and the layer 3 is enamelled simultaneously with the strips 4. As a result, the contact front surface area of the sole with a cloth to be ironed is reduced and the coefficient of friction can be reduced. Moreover, the excellent adhesion property of the enamel strips is obtained and, then, the whole front surface of the sole is made not to be sensitive to dyeing. COPYRIGHT: (C)1990,JPO | ||||||
| 80 | Production of covered steel sheet for enamel | JP23465287 | 1987-09-18 | JPS6479037A | 1989-03-24 | TAKECHI HIROSHI; WADA TADAYOSHI; YABE KATSUHIKO |
| PURPOSE:To produce the title steel sheet having excellent resistance to corrosion, heat, wear, and chemicals by applying a specified glaze on the surface of a steel sheet, and drying the glaze. CONSTITUTION:From 3-10 parts (solid component) of the material contg. 40-80% acrylic ester, 5-38% methacrylic ester, 1-5% org. acid-based polymer, and 0.05-0.3% surfactant or 20-40% epoxy resin and 30-50 parts of water are admixed to 100 parts of a frit for lower glazing having >=200 mesh grain size to obtain a glaze. A steel sheet is degreased, pickled, then dipped in an Ni soln., and neutralized, and the glaze is applied on the surface of the steel sheet in about 130mum thickness. The glazed steel sheet is then dried at ordinary temp. to 150 deg.C for 2-60min to obtain a covered steel sheet for enamel. The steel sheet is then formed and calcined at 500-900 deg.C, and an upper glaze is applied, dried, and calcined. | ||||||
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