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 |
|---|---|---|---|---|---|---|
| 341 | セラミックス飾りがはめ込まれたセラミックス要素 | JP2014199980 | 2014-09-30 | JP2015072270A | 2015-04-16 | クリスチャン・ヴェルドン |
| 【課題】計時器用のはめ込み用セラミックス要素を製造する方法及び飾りがはめ込まれたセラミックス要素を有する計時器を提供する。 【解決手段】計時器用のはめ込み用セラミックス要素を製造する方法21に関し、a)セラミックス体を形成するステップ22と、b)セラミックス体の一面において、飾りのためのパターン空洞をそれぞれが形成する少なくとも1つの凹部をエッチングによって形成するステップ23と、c)少なくとも1つの凹部の底の表面状態を、底の接触面を増加させるように、変えるステップ24と、d)少なくとも1つの凹部全体を充填するように、熱間溶射によって、少なくとも1つの凹部に第2のセラミックス材料を堆積させるステップ26と、及びe)第2のセラミックス材料が少なくとも1つの凹部の欠損部にのみ残るように、第2のセラミックス材料を平坦化するステップと27を有する。 【選択図】図6 |
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| 342 | Utensils with non-stick coating having scratch resistance and corrosion resistance | JP2010533645 | 2008-11-14 | JP5464710B2 | 2014-04-09 | ムレール,ピエール−ジャン; ヴォワザン,ローラン |
| 343 | Precious metal protective film | JP2012243657 | 2012-11-05 | JP5236833B1 | 2013-07-17 | 利典 三浦 |
| The purpose of the present invention is to easily form, on the surface of a noble-metal base, a protection film which is a strong and dense protection film having excellent adhesion to the noble-metal base and having such a degree of durability that the protected noble metal can be frequently worn in the daily life without necessitating any special care to the handling and which has excellent corrosion resistance and retains these effects over a long period. The noble-metal protection film according to the invention is a silica glass film having a thickness of 0.2-1.0 µm formed by applying, to the surface of a noble-metal base, a composition for glass coating formation that contains a polysilazane as a main component and holding the noble-metal base to which the composition for glass coating formation has been applied, at a temperature lower than the melting point of the noble-metal base in an atmosphere where water vapor is present. | ||||||
| 344 | The method of forming the precious metal protective film | JP2012107064 | 2012-05-08 | JP5130408B1 | 2013-01-30 | 利典 三浦 |
| The purpose of the present invention is to easily form, on the surface of a noble-metal base, a protection film which is a strong and dense protection film having excellent adhesion to the noble-metal base and having such a degree of durability that the protected noble metal can be frequently worn in the daily life without necessitating any special care to the handling and which has excellent corrosion resistance and retains these effects over a long period. The noble-metal protection film according to the invention is a silica glass film having a thickness of 0.2-1.0 µm formed by applying, to the surface of a noble-metal base, a composition for glass coating formation that contains a polysilazane as a main component and holding the noble-metal base to which the composition for glass coating formation has been applied, at a temperature lower than the melting point of the noble-metal base in an atmosphere where water vapor is present. | ||||||
| 345 | Scratch-resistant enamel cookware, and a method for manufacturing of the instrument | JP2008170548 | 2008-06-30 | JP4991647B2 | 2012-08-01 | ムレル ピエール−ジャン; パラン ファブリス |
| 346 | V2o5- low content or non-containing enamel | JP2011523390 | 2009-08-12 | JP2012500765A | 2012-01-12 | スヴェトラーナ エフィメンコ; ナンシー クレヴィツ; クリスティアン シュレーゲル |
| 本発明は、改良された対食器洗浄機の洗浄耐性、良好な耐酸性および種々の基材に対する良好な接着性を有するV 2 O 5 −低含有乃至非含有ほうろうに関する。 本発明はさらに改良された対食器洗浄機の洗浄耐性、良好な耐酸性および基材への良好な接着性を有し、アルミニウム、鋳造アルミニウム、アルミニウム合金、アルミニウム−マグネシウム合金、鋳造アルミニウム合金、銅、オーステナイト系ステンレススチールおよび軟鋼で作製された基材上に広範囲の色彩を有するほうろう引きする透明なほうろう用のフリットに関する。 本ほうろう引き用の組成は、約30〜50重量%のSiO 2 、約30〜40重量%のR 2 O、約15〜25重量%のTiO 2 、約0〜5重量%のRO、約0〜4重量%のV 2 O 5 、約0.3%〜5重量%のFe 2 O 3 、約0〜5重量%のSb 2 O、約0〜3重量%のSnO 2 、約0〜2重量%のB 2 O 3 、約0〜3重量%のAl 2 O 3 、約0〜4重量%のP 2 O 5 、約0〜1重量%のMoO 3 、約0〜2重量%のF 2 、約0〜4重量%のZrO 2 、約0〜4重量%のZnO、約0〜6重量%のNOxからなり、R 2 Oは、10〜23mol%のNa 2 O、7〜20mol%のK 2 Oおよび1〜6.5mol%のLi 2 Oの群から選択されるアルカリ金属酸化物の組み合わせであり、ここでROは少なくとも一つのアルカリ土類酸化物を表し、(Li 2 O+B 2 O 3 )対TiO 2とのモル比は0.2〜0.6であることを特徴とする。 | ||||||
| 347 | Utensils with non-stick coating having scratch resistance and corrosion resistance | JP2010533645 | 2008-11-14 | JP2011502675A | 2011-01-27 | ヴォワザン,ローラン; ムレール,ピエール−ジャン |
| 本発明は、調理用品(1)内に配置される食材の側に設けられることが意図された凹形状の内側面(21)と、熱源に向けて設けられることが意図された凸形状の外側面(22)とを有する金属製素地(2)を備えた調理用品(1)に関する。 該内側面は、該素地(2)側から順に、鉛もカドミウムも含有しない硬質性の粗いエナメルベース(3)と、該硬質性ベース(3)を被覆する非付着性コーティング(4)とで連続的にコーティングされている。 本発明は、このような調理用品(1)の製造方法にも関する。 | ||||||
| 348 | Sintering by electromagnetic energy and / or acoustic energy was localization of bioactive glass | JP2002573060 | 2002-03-12 | JP2004522546A | 2004-07-29 | アロ、ハンヌ; フパ、ミッコ; モリッツ、ニコ; ユリ−ウルポ、アンチ; ユレネン、ヘイモ |
| 本発明の目的は、生体活性ガラスまたは生体活性ガラス複合体を焼結する方法を提供することである。 本発明の方法は、その焼結が、局所化した電磁エネルギーおよび/または音響エネルギーを用いて実施されることを特徴とする。 本発明の他の目的は、デバイスを、生体活性ガラスまたは生体活性ガラス複合体を用いて被覆する方法および少なくとも2つのデバイスを付着するための方法である。 これらすべての方法は、電磁エネルギーおよび/または音響エネルギーを用いて焼結する工程を使用する。 | ||||||
| 349 | 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. | ||||||
| 350 | Anti-adhesive coating of scratch resistance of a heat-resistant | JP50810699 | 1998-07-03 | JP2001500928A | 2001-01-23 | マンゲン ヴァルター; ジルメン ウルリッヒ; クリュムペルマン トーマス; カウプ フリーデル; ベルケンケター ヘルベルト |
| (57)【要約】 本発明は、無機分子構造及び物質の塗布及び熱処理により得られた表面被膜を有する支持体材料に関する。 更に本発明は、表面被膜の製法及び適当な使用に関する。 ガラス、金属又はセラミック製の支持体材料は、水−及び/又は油性有機物質または水−油−エマルジヨンに対する耐付着性を示し、同時に慣用のPTFE−又はシリコン被覆よりも著しく耐熱性で耐引掻性である表面被膜を有すべきである。 この要件は、本発明により、その最上の分子層中での支持体材料の無機分子と塗布された物質の有機分子とが結合している表面被膜によって満たされる。 このような表面の製造のために無機支持体材料上に、まず、シリコン様ネットワークを有する有機物質を塗布し、引き続き熱処理を行い、その際、温度及び時間を、塗布された純粋な有機層が充分に分解され及び/又は除去されるが、最上の分子層中には、支持体材料の無機分子と塗布された物質の有機分子との結合が生じることができるように選択する。 本発明の表面被膜を有する好適な支持体材料は、殊に、家事用−及び台所用器具に有利に使用できる。 | ||||||
| 351 | Coating powders for electrostatic coating of glass and ceramic substrate and metal substrate, their preparation and use | JP50014399 | 1998-05-06 | JP2000516905A | 2000-12-19 | シュリーナー アンドレアス; シェリング フォルカー; トリップトラップ ヘルベルト |
| (57)【要約】 ガラスならびにセラミック基体および金属基体を静電被覆するために必要とされる、高い被覆粉末の比電気通過抵抗は、本発明によれば0.01〜1重量%の量のカルボン酸塩の存在によって達成される。 好ましい被覆粉末は、C−原子2〜6個を有するカルボン酸のアルカリ金属塩、アルカリ土類金属塩または土類金属塩を含有し;抵抗は30〜50%台で上昇されることができる。 本発明による被覆粉末は、ガラスおよびセラミック基体の釉薬処理、エンゴーベ処理および装飾、ならびに金属基体のエナメル光沢化のために使用される。 | ||||||
| 352 | Metallic powder, and its manufacture | JP15734197 | 1997-06-02 | JPH10330802A | 1998-12-15 | ASADA EIICHI; AKIMOTO YUJI; SHIMIZU FUMIYUKI; NAGASHIMA KAZUO |
| PROBLEM TO BE SOLVED: To prevent the oxidation during the preservation of the powder, during the pasting and particularly during the paste baking up to the temperature at which at least the organic vehicle is perfectly burned or removed by proving a glass film on at least a part of the surface of the metallic powder. SOLUTION: A glass film is provided on at least a part of the surface of the metallic poser or the alloy powder so s to function as an oxidation protective film. Any glass film may be accepted so long as the glass transition point and the glass softening point are present, and the glass is fluidized at high temperature even when the glass is amorphous or it contains crystals in the amorphous film. The effective quantity of the glass film is about 0.01-50 wt.% of the metallic powder. The metallic powder can be obtained by adding the oxide precursor which is thermally decomposed in the solution of the pyrolytic metallic compound to generate the glass not to be solid-solved with the metal, and heating to precipitate the glass in the vicinity of the surface of the metallic powder. A conductive layer is formed using the conductive paste containing the metal. | ||||||
| 353 | Nickel powder and production thereof | JP14994997 | 1997-05-26 | JPH10324906A | 1998-12-08 | ASADA EIICHI; AKIMOTO YUJI; NAGASHIMA KAZUO |
| PROBLEM TO BE SOLVED: To restrain sintering of nickel powder in low temp. and to obtain a conductive film having high electric conductivity even in the case of being thin film thickness by forming a composite oxide layer containing lantanium and nickel on at least a part of the surface of nickel powder. SOLUTION: As the composite oxide, material having a structure such as LaNiO3 , La2 NiO4 is given. The sintering of the nickel powder having this composite oxide on the surface is restrained at the low temp. range and the sintering is delayed to near starting temp. of the sintering of ceramic according to the oxide quantity and the excess sintering is prevented. Therefore, the rising of resistance or disconnection of conductor, the increase of film thickness, the delamination, etc., caused by discrepancy of shrinkage at the time of simultaneously sintering of the conductive layer and the ceramic layer, are prevented and the thin nickel conductor having good electric conductivity and stickines is formed. Further, the film thinning of the conductive layer in the laminated parts, etc., can be attained. The sintering starting delay effect is further improved in the case the chromium oxide exists in the composite oxide layer. | ||||||
| 354 | Manufacture of metallic powder | JP27292496 | 1996-09-25 | JPH10102108A | 1998-04-21 | ASADA EIICHI; AKIMOTO YUJI; NAGASHIMA KAZUO; IWASAKI MINETO |
| PROBLEM TO BE SOLVED: To effectively prevent agglomeration of powder with the additives segregated on the surface of metallic powder by adding, into a solution of a metallic salt, metals or semimetals that is insoluble at the heating temperature of the metallic salt, in the production of metallic powder by heating droplet of the metallic salt. SOLUTION: When metallic powder is manufactured by spray-thermal cracking metals or semimetals that is insoluble under the thermal condition for producing metal powder and hardly liable to form a solid solution into the metallic powder, or one or two and more kinds of compounds producing such oxides are added to one or two and more kinds of metallic salt-containing solution. The metallic powder manufactured by this method has an excellent crystallizability, scarce defects in the interior of grains and little or no grains boundaries. The metals or others decomposed and deposited out of the added compounds are driven out onto the surface of particles simultaneously at the time of generation of metallic particles, and stay segregated in high concentration around the particles surface. As for the segregation generating metals, when silver or silver alloy is chosen as the metallic powder, rhodium, osmium and indium are cited. | ||||||
| 355 | Calcium phosphate quotes queuing titanium material | JP31390989 | 1989-12-02 | JP2664029B2 | 1997-10-15 | TORYAMA MOTOHIRO; KAWAMURA MOTOZO; KAWAMOTO YUKARI; YOKOGAWA YOSHUKI; SUZUKI TAKAHIRO |
| A powder for coating the surface of a titanium metal is obtained by mixing compounds as raw materials for CaO, TiO2, and P2O5 with a small amount of a Na2O-containing compound, fusing the resultant mixture, and solidifying and pulverizing the fused mixture. A coating of a calcium phosphate compound adhering with great fastness to the surface of the titanium metal is formed by preparing an aqueous slurry containing the powder mentioned above, applying the aqueous slurry to the surface of the titanium metal, and heat-treating the coated titanium metal. | ||||||
| 356 | Article to be directly enameled, especially treatment of metallic surface of steel sheet | JP27546396 | 1996-09-26 | JPH09111474A | 1997-04-28 | RUI GIRO; BUANSAN SHIYORE; DANIERU BUONE |
| PROBLEM TO BE SOLVED: To provide a method for treating an article to be directly enameled after pickling, especially the metallic surface of steel sheet. SOLUTION: A metal surface to be coated with a film at 0.2-2g/m 2 is pickled and treated with amorphous-phosphate in a first stage, and then is plated with nickel in a second stage. The amt. of sludge due to pickling is decreased, and the adhesive strength of an enamel is improved. When a enameled product is produced from the directly enameled metallic sheet, the sheet is formed between the first pickling and phosphate treating stage and the second nickel plating stage. COPYRIGHT: (C)1997,JPO | ||||||
| 357 | Novel compositions containing Seramitsuku material | JP14844488 | 1988-06-17 | JP2589149B2 | 1997-03-12 | MAGARI NIPE; JANRYUKU SHUPIZE |
| 358 | Reforming method of insulating film | JP28115893 | 1993-11-10 | JPH0817174B2 | 1996-02-21 | 和夫 前田; 徳 徳増; 芳章 湯山 |
| 359 | Metal surface and the method of forming the jewelery such as a watch case | JP28206788 | 1988-11-08 | JPH0813348B2 | 1996-02-14 | 八郎 串田; 義嗣 今澤; 健司 入江; 一巳 浜野 |
| 360 | Insulating film transforming method | JP28115893 | 1993-11-10 | JPH07135205A | 1995-05-23 | MAEDA KAZUO; TOKUMASU TOKU; YUYAMA YOSHIAKI |
| PURPOSE: To provide a method, to be used to modify the borosilicate glass formed by a CVD method, for transforming a borosilicate glass film with which the parasitic capacitance between insulating films, especially the conductor layer having a borosilicate glass film interposed between them, can be reduced. CONSTITUTION: This transforming method is composed of a step in which a borosilicate glass film (BSG film) is formed on a substrate 1 using film-forming reactive gas and another process with which the borosilicate glass film is exposed to the plasma of transforming reactive gas. COPYRIGHT: (C)1995,JPO | ||||||
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