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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101 | 構造体及び表面被覆層形成用塗料 | JP2013213254 | 2013-10-10 | JP2015075061A | 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が存在する場合や、エッジ部が存在する場合であっても、上記凸部やエッジ部にも、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、前記結晶性無機材の粒子の平均粒子径は、0.1〜50μmであることを特徴とする構造体。 【選択図】 図1 |
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102 | 構造体及び塗料セット | JP2013213251 | 2013-10-10 | JP2015074816A | 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が存在する場合や、エッジ部が存在する場合であっても、上記凸部やエッジ部にも、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】 表面に平坦部と凸部及び/又はエッジ部とを有する金属からなる基材と、 前記基材の表面に被覆された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、前記平坦部を被覆し、非晶性無機材からなるか、又は、結晶性無機材及び非晶性無機材からなる第1表面被覆層と、前記凸部及び/又はエッジ部を被覆し、結晶性無機材及び非晶性無機材からなる第2表面被覆層とからなり、前記第2表面被覆層に含まれる前記結晶性無機材の重量割合は、前記第1表面被覆層中に含まれる前記結晶性無機材の重量割合よりも高いことを特徴とする構造体。 【選択図】 図1 |
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103 | Steel sheet for enameling, its production method, enameled product and its production method | JP2000395600 | 2000-12-26 | JP2002194494A | 2002-07-10 | SATO FUMIAKI; HAMADA RIHEI; ODA SHUZO; KINO YOSHIHIRO; HAYASHIDA TAKAHIRO; FUJIMOTO JUNICHI; KOMAI MASAO |
PROBLEM TO BE SOLVED: To provide a steel sheet for enameling in which excellent adhesion of enamel can be obtained by enameling for only one time using a Ti-added steel sheet, its production method, an enameled product, and its production method. SOLUTION: An Ni-Mo alloy plating is applied to the surface of a Ti-added steel sheet having components containing in the relation of, by weight, <=0.01% C, <=0.5% Mn, <=0.04% P, <=0.04% S and 0.01 to 0.50% Ti, and the balance Fe with inevitable impurities. Next, heat treatment is performed to prepare a steel sheet for enameling in which the contents of Ni, Mo and Fe present in the surface of the steel sheet are controlled to fixed ranges. A glaze is applied thereto for one time, and the steel sheet is baked. | ||||||
104 | Flexible amorphous semiconductor solar cell | JP4455484 | 1984-03-07 | JPH0652795B2 | 1994-07-06 | 俊雄 三宿; 光明 加藤; ゆき子 藤巻; 英世 飯田 |
105 | Natural stone tone enamel product and a method of manufacturing the same | JP31250188 | 1988-12-09 | JPH0633470B2 | 1994-05-02 | OOTA MAKOTO |
106 | Production of enamelled workpiece | JP4606693 | 1993-02-12 | JPH0665761A | 1994-03-08 | HERUMAN GURUBAA; EBERUHARUTO ARUNINGU; HANSU HOFUMAN; ARAN BIKESUNERU; PAURU TSUIBERU; DEIITAA MARUGOTSUTE; KIISU FUOSUTAA |
PURPOSE: To form a metal sheet capable of being enamel coated without requiring pretreatment of the metal and generating any defects. CONSTITUTION: The metal sheet enamelled with two layers is produced by coating the sheet with a polymer suspension before forming. Successively, the metal sheet is dried, formed and coated with an enamel frit. The sheet is fired at a temp. of 560-850°C. The binder in the polymer suspension is preferably a material which burns completely at melting and stoving temp. COPYRIGHT: (C)1994,JPO | ||||||
107 | JPH05505382A - | JP50260391 | 1990-12-13 | JPH05505382A | 1993-08-12 | |
108 | JPH0443858B2 - | JP32949088 | 1988-12-28 | JPH0443858B2 | 1992-07-17 | ANRI PIERA |
109 | JPH043226B2 - | JP24759286 | 1986-10-20 | JPH043226B2 | 1992-01-22 | |
A biocompatible composite material comprising a substrate having a glass-hydroxyapatite ceramic layer disposed thereon, and optionally having an intermediate glass layer between the substrate and the layer. The glass-hydroxyapatite ceramic layer comprises a continous glass phase having a hydroxyapatite ceramic dispersed therein, said hydroxyapatite ceramic having a calcium/phosphorous molar ratio of 1.50 to 1.75, wherein said hydroxyapatite ceramic is comprised mainly of hydroxyapatite. The surface portion of the layer is in a roughened state having voids and having the hydroxyapatite ceramic exposed. The composite material may be produced by a method comprising applying a blend of a powdery glass with a hydroxyapatite ceramic to the surface of a substrate with or without a glass layer disposed thereon, firing the resulting coated substrate and subjecting the fired coated substrate to an etching action with an acid. The composite material is useful as a bone substitute material for the reconstruction of bone defects. | ||||||
110 | Natural stone-like enamel product and production thereof | JP31250188 | 1988-12-09 | JPH02159388A | 1990-06-19 | OTA MAKOTO |
PURPOSE: To produce the natural stone-like enamel product of excellent appearance having a deep feel by providing dotty transparent enamel layers on the basic enamel layer on a metallic base plate and interspersing the bottom with the further smaller dotty enamel layer from the surface thereof. CONSTITUTION: Granular transparent frits B 2 contg. 40 to 80wt.% PbO are scattered in a suitable amt. onto one ground coat enamel layer 2 of a test piece 3 formed by providing the black ground coat enamel layers 2 on both surfaces of the metallic base plate 1 consisting of a steel sheet, stainless steel sheet, etc. The ordinary frits A, E which are smaller in grain size than the above-mentioned frits are then sprayed from the surface to the bottom of the transparent frits B 2 and thereafter, the enamel layers are calcined. The frits B 2 melt and spread circumferentially while settling in the ground coat enamel layers 2 to form large molten pools 5. The greater parts of the frits A, E are taken as 6, 7 into these molten pools 5. V 2O 5 or MoO 3 is added at 0.3 to 2wt.% to 100 pts.wt. transparent frits B 2 and ≥1 kinds of the pointilistic frits having small flowability at the time of calcining are applied, then the calcining is executed. COPYRIGHT: (C)1990,JPO&Japio | ||||||
111 | JPS6346148B2 - | JP4095785 | 1985-03-01 | JPS6346148B2 | 1988-09-13 | SHIHATSUTARU SHIN KUCHERIA |
112 | Living body compatible composite and its production | JP24759286 | 1986-10-20 | JPS63102762A | 1988-05-07 | MARUNO SHIGEO; BAN SEIJI; IWATA HISASHI; ITO HARUO |
A biocompatible composite material comprising a substrate having a glass-hydroxyapatite ceramic layer disposed thereon, and optionally having an intermediate glass layer between the substrate and the layer. The glass-hydroxyapatite ceramic layer comprises a continous glass phase having a hydroxyapatite ceramic dispersed therein, said hydroxyapatite ceramic having a calcium/phosphorous molar ratio of 1.50 to 1.75, wherein said hydroxyapatite ceramic is comprised mainly of hydroxyapatite. The surface portion of the layer is in a roughened state having voids and having the hydroxyapatite ceramic exposed. The composite material may be produced by a method comprising applying a blend of a powdery glass with a hydroxyapatite ceramic to the surface of a substrate with or without a glass layer disposed thereon, firing the resulting coated substrate and subjecting the fired coated substrate to an etching action with an acid. The composite material is useful as a bone substitute material for the reconstruction of bone defects. | ||||||
113 | JPS6230157B2 - | JP15527080 | 1980-11-06 | JPS6230157B2 | 1987-06-30 | GYUNTAA TAISEN; ARUFUREETO ETSUPIHI; RUUDORUFU HAINTSU HOOHORAITONAA |
114 | Article having insulating and wear-resistant coating layer | JP12446785 | 1985-06-07 | JPS61281880A | 1986-12-12 | NISHINO ATSUSHI; IKEDA MASAKI; WATANABE YOSHIHIRO; HIRAGA MASAHIRO |
PURPOSE:To obtain an article having a coating layer having an excellent insulating characteristic, wear resistance and impact resistance by coating glass ceramics contg. a specific compsn. ratio of the oxide of an alkaline earth metal and the oxide of an alkali metal on said article. CONSTITUTION:A glass material is melted and is then cooled to obtain the cullet of the glass ceramics having the compsn. contg. >=15wt% any of the oxides of the alkaline earth metals (BaO, MgO, CaO, ZnO) and <=2% oxides of the univalent alkali metals (Na2O, K2O, Li2O) and having the properties of preferably 60-145X10<-7>/ deg.C coefft. of thermal expansion. The cullet is then pulverized and a slip is prepd. by using ethyl alcohol, etc. The glass powder particles are electrodeposited on the surface of a metallic base body by an electrophoretic deposition method using the above-mentioned slip and is calcined. The article having the insulating and wear-resistant coating of 20-200mum thickness and 0.05-0.5mum center line average height Ra is thus formed. | ||||||
115 | JPS5936531B2 - | JP10733876 | 1976-09-09 | JPS5936531B2 | 1984-09-04 | HAINTSU BUREEMAA; BERUNAA ADAMU; FURIIDOHERUMU HEEDORITSUHI |
116 | JPS5759320B2 - | JP483375 | 1975-01-08 | JPS5759320B2 | 1982-12-14 | FURIIDERU KAUPU; HAINRITSUHI UARUNKE |
117 | JPS5719199B2 - | JP8690273 | 1973-08-03 | JPS5719199B2 | 1982-04-21 | |
118 | JPS5523779B1 - | JP7700671 | 1971-10-01 | JPS5523779B1 | 1980-06-25 | |
119 | JPS5515380B1 - | JP1843371 | 1971-03-30 | JPS5515380B1 | 1980-04-23 | |
120 | JPS5512101B2 - | JP12085073 | 1973-10-29 | JPS5512101B2 | 1980-03-29 | |