| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Sliding member with composite plating coat | JP2001350100 | 2001-11-15 | JP2003148474A | 2003-05-21 | KAWACHI TOSHIAKI; ISHIKAWA HIDEO; SAKAMOTO MASAAKI |
| PROBLEM TO BE SOLVED: To reduce the wear amount of a sliding member itself as well as the wear amount of a mating material and provide an excellent fatigue resistance in the sliding member having a composite plating coat formed by diffusing inorganic particles into a lead alloy including Cu. SOLUTION: The ratio of the inorganic particles to all occupied in the composite plating coat 4 is 0.3 to 25 vol.%, the ratio of Cu to all occupied in the composite plating coat 4 is 0.1 to 10 wt.%, and the inorganic particles and Cu are not contained in an outermost surface layer 4b having a thickness of 10 to 40% of the thickness of the composite plating coat 4. Also, Cu is not contained in the outermost surface layer 4b of the lead alloy composite plating coat 4. Even if Cu is present therein, its amount is very small and, therefore, the initial running-in of the composite plating coat 4 at the start of the operation can be improved, and an abrupt seizure problem can be eliminated. When wear moves to a normal wear after sufficient running-in, the layer containing the inorganic particles and Cu under the outermost surface layer 4b is exposed and, therefore, the wear of the sliding member can be prevented and the sliding member becomes hard to cause a fatigue. | ||||||
| 42 | High temperature wear resistance sintered alloy | JP22519687 | 1987-09-10 | JPH0798985B2 | 1995-10-25 | 寛 池ノ上; 章 藤木; 一郎 谷本; 弘之 遠藤; 啓太郎 鈴木; 真 阿部 |
| A high temperature wear resistant sintered alloy suitable for the material of a valve seat in an automotive vehicle engine. The matrix of the sintered alloy consists essentially of carbon ranging from 0.45 to 1.15% by weight, nickel ranging from 5.4 to 27% by weight, molybdenum ranging form 0.4 to 2.7% by weight, cobalt ranging from 4.2 to 7.2% by weight and balance being substantially iron. The matrix is formed of a mixture of at least one of sorbite structure and bainite structure and austenite structure. Furthermore, the matrix includes hard phase dispersed therein and containing at least silicon, molybdenum and cobalt. The sintered alloy of such a structure can exhibit high strength and wear resistance at high temperatures regardless of type of engine and kind of fuel in case of being used as the material of the valve seat, while maintaining production cost thereof lower. | ||||||
| 43 | JPH0572450B2 - | JP23024689 | 1989-09-05 | JPH0572450B2 | 1993-10-12 | FURANKU ERITSUKU GUDOIN |
| 44 | Anode alloy and use thereof | JP2001281 | 1981-02-13 | JPS56127743A | 1981-10-06 | ADORUFU FUON REEBENATSUKU; GIYUNTAA SHIYUTOTSUKU; URURITSUHI HOIPUNAA |
| 45 | フッ化物イオン電池 | JP2015171343 | 2015-08-31 | JP6423328B2 | 2018-11-14 | 中本 博文; 三木 秀教; 小久見 善八; 安部 武志 |
| 46 | 摺動部材およびすべり軸受 | JP2017518369 | 2015-12-01 | JP6234637B2 | 2017-11-22 | 和田 仁志 |
| 47 | フッ化物イオン電池 | JP2015171343 | 2015-08-31 | JP2017050113A | 2017-03-09 | 中本 博文; 三木 秀教; 小久見 善八; 安部 武志 |
| 【課題】本発明は、充電時の過電圧を低減したフッ化物イオン電池を提供することを課題とする。 【解決手段】本発明においては、正極活物質を含有する正極活物質層と、負極活物質を含有する負極活物質層と、上記正極活物質層および上記負極活物質層の間に形成された電解質層とを有するフッ化物イオン電池であって、上記負極活物質が、Ce元素およびPb元素を少なくとも含有する合金であることを特徴とするフッ化物イオン電池を提供することにより、上記課題を解決する。 【選択図】図1 |
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| 48 | 鉛蓄電池 | JP2015536428 | 2014-07-07 | JP6006429B2 | 2016-10-12 | 佐藤 義信; 安藤 和成; 井上 洋介 |
| 49 | Solder alloy | JP2012165344 | 2012-07-26 | JP2014024082A | 2014-02-06 | IZEKI TAKASHI; SHIMIZU JUICHI |
| PROBLEM TO BE SOLVED: To provide a solder alloy superior in wettability and bondability and having high joining reliability required to be used for assembling an electronic part without substantially limiting an alloy composition, and the electronic part using its solder alloy.SOLUTION: The solder alloy is provided by setting a thickness of an oxide layer to 120 nm or less, and setting surface roughness (Ra) to 0.60 μm or less, and its alloy composition is not particularly limited, but is desirably mainly composed of any of Bi, Pb, Sn, Au, In and Zn among these. | ||||||
| 50 | Method and system for producing a lead-acid battery plates | JP2011535011 | 2008-11-07 | JP2012508112A | 2012-04-05 | デレク、ルッセル; ペルッソン、アンデルス |
| 【課題】 鉛蓄電池プレートを製造する方法およびシステムを提供することである。
【解決手段】 鉛酸蓄電池の鉛または鉛合金のプレート格子を製造する方法およびシステムは、開示される。 それは、鉛または鉛合金の融点より10〜100℃低い温度下で鉛または鉛合金の溶融の連続押出を具備し、押出物は、続いて、鉛または鉛合金の融点より少なくとも230℃以上低い温度下で、10%未満のトータルドラフトレートにて平坦化プロセスを受け、そして、その後、押出物は、プレート格子を製造するために処理されることができる。 |
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| 51 | Multilayer material corrosion resistance was improved (variant) and a method of manufacturing the same | JP2011528972 | 2008-09-26 | JP2012503717A | 2012-02-09 | イヴァノヴィッヒ アブラモヴ,パヴェル; ジェンナディエヴィッヒ ウサティ,セルゲイ; ヴラディミロヴィッヒ キリー,ジェンナディ; ボリソヴィッヒ クリウコヴ,ドミトリー; アレクサンドロヴィッヒ ゴルドポロヴ,ジュリ; ヴァディミロヴィッヒ デニソヴ,イゴル; レオニドヴナ ペルヴクヒナ,オルガ; ボルイソヴィッヒ ペルヴクヒン,レオニド; ペトロヴィッヒ ペレリギン,ジュリ; セルゲーヴナ ロス,イリナ; アンドレーヴィッヒ ロゼン,アンドレイ; エヴゲニエヴィッヒ ロゼン,アンドレイ |
| 本発明は耐食性が向上した各種多層構造用材料の開発に関し、その多層材料は、多層材料の片面または両面で腐食性使用環境と直接的に接触する外側主要層と、それらの間に交互に配置した内側主要層および内側犠牲層との連続的接続を有する。 主要層は、金属材料で作製され、それら内部において後続的に生じる孔食タイプの腐食をともなう長期間に渡る不動態状態が特徴であり、一方、内側犠牲層は、深い孔食腐食中心が外側主要層および内側主要層内で先行して生じると、腐食性の使用環境に接触して一般的な腐食を生じること、並びに外側および内側主要層に関連する防護作用を有することを特徴とする。 そのような材料の製造方法を提案する。
【選択図】図1 |
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| 52 | Thermoelectric conversion element and manufacturing method therefor | JP2007150696 | 2007-06-06 | JP2008305918A | 2008-12-18 | MURAI TATEYA; KITA TAKUSHI |
| <P>PROBLEM TO BE SOLVED: To provide a thermoelectric conversion element, fully reducing thermal conductivity and significantly improving the characteristics, and to provide a manufacturing method of the thermoelectric conversion element. <P>SOLUTION: The manufacturing method of a thermoelectric conversion element includes a process for preparing a solution, containing the salt of an element constituting a thermoelectric conversion material, dripping the solution in a solution containing a reducing agent, and depositing a raw material particle of the thermoelectric conversion material, performing heat treatment, and performing sintering. By dripping the solution in the solution, containing the reducing agent, the raw material particles of a thermoelectric conversion material, having an average grain size of 10-100 nm, are deposited. By heat-treating the raw material particle, before sintering, the thermoelectric conversion element comprising the crystal particle of the thermoelectric conversion material having an average grain size of 10-100 nm can be obtained, that shows phonon scattering in a proper grain boundary, and reducing the decrease in the thermal conductivity, and improving the performance index ZT. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 53 | Composite plating film with a sliding member | JP2001350100 | 2001-11-15 | JP3754353B2 | 2006-03-08 | 雅昭 坂本; 利明 川地; 日出夫 石川 |
| 54 | Overlay alloy for plain bearing | JP13022989 | 1989-05-25 | JPH02310330A | 1990-12-26 | SUZUKI TAKASHI |
| PURPOSE:To improve the corrosion resistance and fatigue resistance of the overlay by incorporating specified amounts of In and Sb into Pb. CONSTITUTION:The compsn. of the overlay alloy for a plain bearing is formed from, by weight, 3 to 20% In, >0.5 to 9% Sb and the balance substantial Pb with impurities. If required, 0.1 to 5% of at least one kind among Ag, Cu, Ni and Mn are furthermore incorporated thereto. In the alloy series, conformability is fundamentally undertaken by Pb and corrosion resistance by In. In the initial stage of using a plain bearing, its corrosion resistance is lower than that of a conventional Pb-Sn-In series overlay, but, since there is no losing of the balance of the components caused by the diffusion in the use, the corrosion resistance is stable. | ||||||
| 55 | JPS6323274B2 - | JP2001281 | 1981-02-13 | JPS6323274B2 | 1988-05-16 | ADORUFU FUON REEPENATSUKU; GYUNTAA SHUTOTSUKU; URURITSUHI HOIPUNAA |
| 56 | Electrochemical oxidation of organic product | JP16994087 | 1987-07-09 | JPS6328894A | 1988-02-06 | ANDOREASU MACHIASU YOOZEFU TOO; FURANSHISUKUSU BUAN DEN BURINK; RUUDORUFU BUAN HARUDEBUERUTO |
| 57 | JPS5347352B1 - | JP7029871 | 1971-09-10 | JPS5347352B1 | 1978-12-20 | |
| 58 | JPS5141570B1 - | JP5161870 | 1970-06-16 | JPS5141570B1 | 1976-11-10 | |
| 59 | Denkaisaishuyofuyoseianoodo oyobi sonoseizoho | JP14069975 | 1975-11-22 | JPS5191804A | 1976-08-12 | |
| 60 | SILVER ALLOY POWDER AND METHOD FOR PRODUCING SAME | EP16881442.4 | 2016-12-26 | EP3395474A1 | 2018-10-31 | YOSHIDA, Masahiro; MICHIAKI, Yoshiyuki; INOUE, Kenichi |
While a molten metal obtained by melting silver and a metal, which is selected from the group consisting of tin, zinc, lead and indium, in an atmosphere of nitrogen is allowed to drop, a high-pressure water (preferably pure water or alkaline water) is sprayed onto the molten metal in the atmosphere or an atmosphere of nitrogen to rapidly cool and solidify the molten metal to produce a silver alloy powder which comprises silver and the metal which is selected from the group consisting of tin, zinc, lead and indium and which has an average particle diameter of 0.5 to 20 µm, the silver alloy powder having a temperature of not higher than 300 °C at a shrinking percentage of 0.5 %, a temperature of not higher than 400 °C at a shrinking percentage of 1.0 % and a temperature of not higher than 450 °C at a shrinking percentage of 1.5 % in a thermomechanical analysis. |
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