| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Metal matrix composite article having a screw thread | JP2006545634 | 2004-11-04 | JP2007514867A | 2007-06-07 | ピー. ソレンセン,ジェイムズ; ジェイ. フィック,マイケル |
| 可溶性コアを含むモールド部品、金属マトリックス複合物品、および金属マトリックス複合物品の製造方法。 | ||||||
| 162 | Metal fiber assembly and its manufacturing method | JP53364498 | 1998-01-12 | JP3910218B2 | 2007-04-25 | デクレルコ,ドリエ |
| 163 | Composite material for manufacturing electrical contact and its manufacturing method | JP2003419166 | 2003-12-17 | JP2004214183A | 2004-07-29 | BURESCH ISABELL; STURM HERMANN; BINDER ROLAND |
| <P>PROBLEM TO BE SOLVED: To provide a metal composite material sufficiently satisfying a high grade demand using the device improved as compared with the conventional technique. <P>SOLUTION: This conductive composite material for manufacturing an electrical contact member comprises a metal band and a contact layer at least whose one side is coated and made of a silver contact material or a tin contact material. The contact material comprises 0.5 to 60 wt.% of carbon powder in the form of very fine particles with a diameter Φ1= 5 to 200 nm as a first additive, and 0.5 to 60 wt.% of a second powdery additive in the form of fine particles with a diameter Φ2=5 to 200 nm which improves conductivity, hardness and abrasion resistance. Furthermore, it is related with a manufacturing method for a device for gas spraying an emanated object comprising a fluid material or a liquid material and a conductive compound material, and its application method. <P>COPYRIGHT: (C)2004,JPO&NCIPI | ||||||
| 164 | Lightweight member, and method and apparatus for producing the same | JP2003144140 | 2003-04-16 | JP2004025307A | 2004-01-29 | DOBESBERGER FRANZ; FLANKL HERBERT; LEITLMEIER DIETMAR; BIRGMANN ALOIS |
| <P>PROBLEM TO BE SOLVED: To obtain a high load possibility with the light weight of a lightweight member. <P>SOLUTION: A lightweight member 1 has an outer wall body 12 and an internal range 13 metallurgically formed from metal foam as a core part 10. <P>COPYRIGHT: (C)2004,JPO | ||||||
| 165 | Composite material and method of manufacturing the same | JP2001391693 | 2001-12-25 | JP2003191066A | 2003-07-08 | KAWAGUCHI KENICHI; KATSUMATA MAKOTO; KATO TATSUYA |
| <P>PROBLEM TO BE SOLVED: To provide a composite material which is variation-free in the mechanical strength occurring in the dispersion state of an inorganic filler, and has the mechanical strength exceedingly higher than theretofore, and also to provide a method of manufacturing the same. <P>SOLUTION: Inorganic hollow particles and at least either cloth or felt of inorganic fibers are respectively laminated in a laminar form and are housed into a casting mold, and a molten metal is poured under pressurization into the casing mold and then cooled, by which the composite material including continuously a first composite material layer 1 containing at least either the cloth or the felt of the inorganic fibers and a second composite material layer 2 containing the inorganic hollow particles in a metal matrix and forming a single body as a whole is obtained. <P>COPYRIGHT: (C)2003,JPO | ||||||
| 166 | 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. | ||||||
| 167 | Metal / ceramic composite body and a method of manufacturing the same | JP2001536787 | 2000-11-06 | JP2003514122A | 2003-04-15 | ポストラー イリス; ヴェー シュテンツェル オットー; ツェルヴィンスキー クラウス; ラインシュ ベルント |
| (57)【要約】 本発明は、金属(6)と、金属部分に境を接し、金属が浸透した多孔質セラミック予備成形体(2)とからなり、その際予備成形体の、金属によって還元可能な酸化物と、浸透した金属とが相互に部分的に反応して金属間相を形成している複合材料体に関する。 該複合材料体において、予備成形体(2)の内部に金属部分への方向で、予備成形体の還元可能な酸化物と浸透した金属との十分な化学反応から不完全な化学反応への勾配が形成されていること提案する。 | ||||||
| 168 | Wearing material and metallic part having wearing coating | JP28907699 | 1999-10-12 | JP2000192173A | 2000-07-11 | DALZELL WILLIAM J JR; DAVIS CHARLES G |
| PROBLEM TO BE SOLVED: To provide a wearing material suitable for the knife edge seal of a gas turbine engine. SOLUTION: Copper powder and boron nitride powder are jointly subjected to plasma thermal spraying to obtain this wearing material composed of about 35 to 50 vol.% copper alloy matrix, about 25 to 55 vol.% BN, and the balance pores and the oxide of the matrix. The copper alloy matrix is a solid solution composed of about 65 to 95 wt.% copper, and the balance nickel. In the meanwhile in which this wearing material is interfered with a knife edge in the presence of lubricating oil in a high temp. state, sparks are not generated, and also, the lubricating oil does not deteriorate. Moreover, the wearing material has suitable abrasive characteristics, by which a good seal is formed. COPYRIGHT: (C)2000,JPO | ||||||
| 169 | Laminate includes a metal fiber web, and the radiation film and a bonding layer using the same | JP28411786 | 1986-11-28 | JP2593459B2 | 1997-03-26 | イグナス・レフエバー; ロニイ・ロスフエルド |
| 170 | Single cylinder or multicylinder block | JP8745091 | 1991-03-27 | JPH04224071A | 1992-08-13 | GEORUKU JIITSUKU; PETERU EBUERUBIN; HANSU HAINRITSUHI DOUUBE |
| PURPOSE: To provide a hypoeutectic aluminum alloy which is produced at a low cost and is used for producing the cylinder wherein only the sliding surface of the cylinder exhibits abrasion property analogous to the supereutectic alloy. CONSTITUTION: The sliding surface 2 of the cylinder is constituted by a fibrous body 3 comprising a ceramic fiber 4 of alumina, aluminum silicide or the like and having a thickness of 0.5-10 mm, wherein silicon particles 5 are dispersed and an infiltrated hypoeutectic aluminum alloy is present. The silicon particles 5 have a particle size of 20-80 μm and have been mechanically polished. The fibrous body 3 is embedded when the cylinder is cast. | ||||||
| 171 | Production of partially composite member | JP11487190 | 1990-04-27 | JPH0413822A | 1992-01-17 | ODA TAKASHI |
| PURPOSE: To facilitate the forming even of a thin-walled reinforced part of complicated shape by forming a thin Al film on the surface of a composite base material consisting of SiC whisker and Al alloy powder, setting this base material in the prescribed position, an exerting cast-in by means of an Al alloy. CONSTITUTION: A composite base material is prepared by subjecting a mixture of SiC whisker and Al alloy powder to compacting into the prescribed shaped and then sintering the resulting green compact. A thin Al film of 0.5-20μm thickness is formed on the surface of this base material. Subsequently, the composite base material having this thin surface film of Al is set in the position corresponding to the part to be reinforced in a mold. Then, a molten Al alloy is cast-in, by which a partially composite member having the SiC whisker reinforced part in the specific position can be obtained. COPYRIGHT: (C)1992,JPO&Japio | ||||||
| 172 | Laminate including metallic fiber web | JP28411786 | 1986-11-28 | JPS62144942A | 1987-06-29 | RONII ROSUFUERUDO; IGUNASU REFUEBAA |
| 173 | Method of manufacturing structures with fiber reinforced composite parts | JP448876 | 1976-01-16 | JPS5292827A | 1977-08-04 | BAN KEISUKE; ARAI TAKEO |
| 174 | JPS516015B1 - | JP5388772 | 1972-06-01 | JPS516015B1 | 1976-02-24 | |
| 175 | ダイヤモンド接合体、それを備える工具、およびダイヤモンド接合体の製造方法 | JP2015547689 | 2014-10-08 | JP6416776B2 | 2018-10-31 | 東 泰助; 山口 忠士; 万木 伸一郎; 曽我部 万里 |
| 176 | 超硬質構造物、それらを作製する方法およびそれらを加工する方法 | JP2015563154 | 2014-06-25 | JP2016534000A | 2016-11-04 | カール ベルント−オラ サンドストレム |
| 各境界部が、それぞれの強化構造体と結合している、互いに対向する強化された前記境界部を有する焼結した多結晶超硬質層を備え、その超硬質層が多結晶ダイヤモンド(PCD)材料または多結晶立方晶窒化ホウ素(PCBN)材料を含む構造物。この構造物は、各強化された境界部の円相当径が、両境界部間の超硬質層の平均厚さの少なくとも10倍となるように構成されることになる。強化構造体は、強化された境界部の少なくとも近傍に、2,000℃未満の融点を有する材料を実質的に含まないことになる。 | ||||||
| 177 | 超硬質の平坦な打撃面を有するピックツール | JP2015533572 | 2013-09-25 | JP5972470B2 | 2016-08-17 | フランク、フリートリッヒ、ラハマン; ロバート、フライズ; ベルント、ハインリッヒ、リーズ |
| 178 | アモルファス合金、成形用型および光学素子の製造方法 | JP2012183950 | 2012-08-23 | JP5936487B2 | 2016-06-22 | 福島 浩孝; 緑川 理子 |
| 179 | 環状酸化物成形体の製造方法 | JP2015094727 | 2015-05-07 | JP2015214149A | 2015-12-03 | クヌート エーガー; イェンス ウーヴェ ファウスト; ホルガー ボルヒェルト; ラルフ シュトライバート; クラウス ヨアヒム ミュラー−エンゲル; アンドレアス ライヒレ |
| 【課題】粉末状骨材の機械的圧密化によって得られる筒状成形体の製造におけるクラックの形成防止する方法の提供、酸化物管状成形体の製造方法を提供する。 【解決手段】充填チャンバが、垂直ボア軸B8,9によって上部から下方へ金型材料を通して導かれる金型ボア内2に配置され、下部ポンチ12の位置を維持したまま上部ポンチ13を下降させ、又は下部ポンチ12を付加的に上昇させながら、ボア軸B8,9に沿って2つの端面の軸方向開始距離Aを、圧密化のための所定の軸方向端部距離Eに減少させることによって、粉末状骨材の機械的圧密化を行う金属酸化物管状成形体の製造方法。 【選択図】図1 |
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| 180 | 接合用ろう材およびそれを用いた複合部材、切削工具 | JP2014256468 | 2014-12-18 | JP2015142941A | 2015-08-06 | 五十嵐 誠; 大橋 忠一; 油本 憲志; 清水 博康 |
| 【課題】接合用ろう材を介して接合されたcBN焼結体製切刃部とWC基超硬製工具本体とを有する切削工具切削工具を提供する。 【解決手段】この切削工具では、質量%でTi:35〜40%、Zr:35〜40%、Ni:5〜15%をそれぞれ含有し、残部がCuおよび不可避不純物からなる接合用ろう材を用いてcBN焼結体製切刃部とWC基超硬製工具本体とをろう付けする。 【選択図】図2 |
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