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1.发明授权Process for production of aluminum complex comprising sintered porous aluminum body 有权包括烧结多孔铝体的铝络合物的生产方法公开(公告)号:US08691328B2
公开(公告)日:2014-04-08
申请号:US13375589
申请日:2010-03-30
申请人: Ji-bin Yang , Koji Hoshino , Kenji Orito , Hitoshi Maruyama
发明人: Ji-bin Yang , Koji Hoshino , Kenji Orito , Hitoshi Maruyama
IPC分类号: B05D5/12
CPC分类号: H01M4/667 , B22F3/1125 , B22F5/006 , B22F7/006 , B22F2998/10 , B32B15/01 , C22C1/0416 , C22C21/00 , C22C21/12 , H01M4/661 , H01M4/803 , H01M4/808 , B22F9/04 , B22F1/0074
摘要: This method for producing an aluminum composite including porous sintered aluminum, includes: mixing aluminum powder with a sintering aid powder containing either one or both of titanium and titanium hydride to obtain a raw aluminum mixed powder; adding and mixing a water-soluble resin binder, water, a plasticizer containing at least one selected from polyhydric alcohols, ethers, and esters, and a water-insoluble hydrocarbon-based organic solvent containing five to eight carbon atoms into the raw aluminum mixed powder to obtain a viscous composition; shape-forming the viscous composition on an aluminum foil or an aluminum plate and causing the viscous composition to foam to obtain a formed object prior to sintering; and heating the formed object prior to sintering in a non-oxidizing atmosphere to obtain an aluminum composite which includes porous sintered aluminum integrally joined onto the aluminum foil or the aluminum plate, wherein when a temperature at which the raw aluminum mixed powder starts to melt is expressed as Tm (° C.), then a temperature T (° C.) of the heating fulfills Tm-10 (° C.)≦T≦685 (° C.).
摘要翻译: 该制造包含多孔烧结铝的铝复合材料的方法包括:将铝粉与含有钛和氢化钛中的一种或两种的烧结助剂粉末混合,得到原铝混合粉末; 将水溶性树脂粘合剂,水,含有选自多元醇,醚和酯中的至少一种的增塑剂和含有5至8个碳原子的水不溶性烃类有机溶剂加入并混合到生铝混合粉末中 得到粘稠组合物; 在铝箔或铝板上形成粘性组合物,并使粘性组合物发泡以在烧结之前获得成形物体; 在非氧化性气氛中烧结之前对成形体进行加热,得到铝复合体,其包含整体接合在铝箔或铝板上的多孔烧结铝,其中,当原铝混合粉末开始熔融的温度为 表示为Tm(℃),则加热的温度T(℃)满足Tm-10(℃)≦̸ T≦̸ 685(℃)。
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2.发明申请PROCESS FOR PRODUCTION OF ALUMINUM COMPLEX COMPRISING SINTERED POROUS ALUMINIUM BODY 有权生产包含烧结多孔铝体的铝复合物的方法公开(公告)号:US20120135142A1
公开(公告)日:2012-05-31
申请号:US13375589
申请日:2010-03-30
申请人: Ji-bin Yang , Koji Hoshino , Kenji Orito , Hitoshi Maruyama
发明人: Ji-bin Yang , Koji Hoshino , Kenji Orito , Hitoshi Maruyama
CPC分类号: H01M4/667 , B22F3/1125 , B22F5/006 , B22F7/006 , B22F2998/10 , B32B15/01 , C22C1/0416 , C22C21/00 , C22C21/12 , H01M4/661 , H01M4/803 , H01M4/808 , B22F9/04 , B22F1/0074
摘要: This method for producing an aluminum composite including porous sintered aluminum, includes: mixing aluminum powder with a sintering aid powder containing either one or both of titanium and titanium hydride to obtain a raw aluminum mixed powder; adding and mixing a water-soluble resin binder, water, a plasticizer containing at least one selected from polyhydric alcohols, ethers, and esters, and a water-insoluble hydrocarbon-based organic solvent containing five to eight carbon atoms into the raw aluminum mixed powder to obtain a viscous composition; shape-forming the viscous composition on an aluminum foil or an aluminum plate and causing the viscous composition to foam to obtain a formed object prior to sintering; and heating the formed object prior to sintering in a non-oxidizing atmosphere to obtain an aluminum composite which includes porous sintered aluminum integrally joined onto the aluminum foil or the aluminum plate, wherein when a temperature at which the raw aluminum mixed powder starts to melt is expressed as Tm (° C.), then a temperature T (° C.) of the heating fulfills Tm-10 (° C.)≦T≦685 (° C.).
摘要翻译: 该制造包含多孔烧结铝的铝复合材料的方法包括:将铝粉与含有钛和氢化钛中的一种或两种的烧结助剂粉末混合,得到原铝混合粉末; 将水溶性树脂粘合剂,水,含有选自多元醇,醚和酯中的至少一种的增塑剂和含有5至8个碳原子的水不溶性烃类有机溶剂加入并混合到生铝混合粉末中 得到粘稠组合物; 在铝箔或铝板上形成粘性组合物,并使粘性组合物发泡以在烧结之前获得成形物体; 在非氧化性气氛中烧结之前对成形体进行加热,得到铝复合体,其包含整体接合在铝箔或铝板上的多孔烧结铝,其中,当原铝混合粉末开始熔融的温度为 表示为Tm(℃),则加热的温度T(℃)满足Tm-10(℃)≦̸ T≦̸ 685(℃)。
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3.发明授权公开(公告)号:US09589732B2
公开(公告)日:2017-03-07
申请号:US13260843
申请日:2010-03-30
申请人: Koji Hoshino , Ji-bin Yang , Kenji Orito , Shinichi Ohmori
发明人: Koji Hoshino , Ji-bin Yang , Kenji Orito , Shinichi Ohmori
IPC分类号: C22C1/08 , B22F3/11 , H01G9/008 , B22F7/00 , B22F9/04 , C22C1/04 , C22C21/00 , H01G11/68 , H01G11/70 , H01M4/66 , H01M4/80
CPC分类号: H01G9/016 , B22F3/1125 , B22F7/006 , B22F9/04 , B22F2998/00 , C22C1/0416 , C22C1/08 , C22C21/00 , C22C21/003 , H01G9/052 , H01G9/0525 , H01G11/68 , H01G11/70 , H01M4/661 , H01M4/80 , H01M4/803 , Y02E60/13 , Y10T428/12479 , B22F7/04
摘要: This method for producing porous sintered aluminum includes: mixing aluminum powder with a sintering aid powder containing a sintering aid element to obtain a raw aluminum mixed powder; forming the raw aluminum mixed powder into a formed object prior to sintering having pores; and heating the formed object prior to sintering in a non-oxidizing atmosphere to produce porous sintered aluminum, wherein the sintering aid element is titanium, and when a temperature at which the raw aluminum mixed powder starts to melt is expressed as Tm (° C.), then a temperature T (° C.) of the heating fulfills Tm-10 (° C.)≦T≦685 (° C.).
摘要翻译: 该多孔烧结铝的制造方法包括:将铝粉与含有烧结助剂元素的烧结助剂粉末混合,得到原铝混合粉末; 在具有孔的烧结之前将原铝混合粉末形成成形体; 在非氧化性气氛中烧结之前加热成形体,制作多孔烧结铝,其中烧结助剂为钛,当原铝混合粉末开始熔化时的温度为Tm(℃)。 ),则加热的温度T(℃)满足Tm-10(℃)≤T≤685(℃)。
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4.发明申请公开(公告)号:US20120107166A1
公开(公告)日:2012-05-03
申请号:US13260962
申请日:2010-03-30
申请人: Koji Hoshino , Ji-bin Yang , Kenji Orito , Shinichi Ohmori
发明人: Koji Hoshino , Ji-bin Yang , Kenji Orito , Shinichi Ohmori
CPC分类号: B22F3/1125 , B22F1/0059 , B22F1/0085 , B22F3/1003 , B22F3/1121 , B22F7/006 , B22F2998/00 , C22C1/0416 , C22C1/08 , C22C21/02 , C22C21/12 , C22C21/14 , C22C21/16 , H01G9/016 , H01G11/68 , H01G11/70 , H01M4/661 , H01M4/666 , H01M4/80 , Y02E60/13 , B22F1/0003
摘要: This method for producing porous sintered aluminum includes: mixing aluminum powder with a sintering aid powder containing titanium to obtain a raw aluminum mixed powder; mixing the raw aluminum mixed powder with a water-soluble resin binder, water, and a plasticizer containing at least one selected from polyhydric alcohols, ethers, and esters to obtain a viscous composition; drying the viscous composition in a state where air bubbles are mixed therein to obtain a formed object prior to sintering; and heating the formed object prior to sintering in a non-oxidizing atmosphere, wherein when a temperature at which the raw aluminum mixed powder starts to melt is expressed as Tm (° C.), a temperature T (° C.) of the heating fulfills Tm−10 (° C.)≦T≦685 (° C.).
摘要翻译: 该多孔烧结铝的制造方法包括:将铝粉与含有钛的烧结助剂粉末混合,得到原料铝混合粉末; 将原铝混合粉末与水溶性树脂粘合剂,水和含有选自多元醇,醚和酯中的至少一种的增塑剂混合以获得粘性组合物; 在其中混合气泡的状态下干燥粘性组合物以在烧结之前获得成形物体; 在非氧化性气氛中烧结前对成形物进行加热,其中当原铝混合粉末开始熔化的温度表示为Tm(℃)时,加热温度T(℃) 满足Tm-10(℃)≦̸ T≦̸ 685(℃)。
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5.发明授权公开(公告)号:US09242297B2
公开(公告)日:2016-01-26
申请号:US13260962
申请日:2010-03-30
申请人: Koji Hoshino , Ji-bin Yang , Kenji Orito , Shinichi Ohmori
发明人: Koji Hoshino , Ji-bin Yang , Kenji Orito , Shinichi Ohmori
IPC分类号: B22F3/11 , B22F7/00 , C22C1/04 , C22C1/08 , C22C21/02 , C22C21/12 , C22C21/14 , C22C21/16 , H01G9/008 , H01G11/68 , H01G11/70 , H01M4/66 , H01M4/80 , B22F1/00 , B22F3/10
CPC分类号: B22F3/1125 , B22F1/0059 , B22F1/0085 , B22F3/1003 , B22F3/1121 , B22F7/006 , B22F2998/00 , C22C1/0416 , C22C1/08 , C22C21/02 , C22C21/12 , C22C21/14 , C22C21/16 , H01G9/016 , H01G11/68 , H01G11/70 , H01M4/661 , H01M4/666 , H01M4/80 , Y02E60/13 , B22F1/0003
摘要: This method for producing porous sintered aluminum includes: mixing aluminum powder with a sintering aid powder containing titanium to obtain a raw aluminum mixed powder; mixing the raw aluminum mixed powder with a water-soluble resin binder, water, and a plasticizer containing at least one selected from polyhydric alcohols, ethers, and esters to obtain a viscous composition; drying the viscous composition in a state where air bubbles are mixed therein to obtain a formed object prior to sintering; and heating the formed object prior to sintering in a non-oxidizing atmosphere, wherein when a temperature at which the raw aluminum mixed powder starts to melt is expressed as Tm (° C.), a temperature T (° C.) of the heating fulfills Tm−10 (° C.)≦T≦685 (° C.).
摘要翻译: 该多孔烧结铝的制造方法包括:将铝粉与含有钛的烧结助剂粉末混合,得到原料铝混合粉末; 将原铝混合粉末与水溶性树脂粘合剂,水和含有选自多元醇,醚和酯中的至少一种的增塑剂混合以获得粘性组合物; 在其中混合气泡的状态下干燥粘性组合物以在烧结之前获得成形物体; 在非氧化性气氛中烧结前对成形物进行加热,其中当原铝混合粉末开始熔化的温度表示为Tm(℃)时,加热温度T(℃) 满足Tm-10(℃)≦̸ T≦̸ 685(℃)。
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6.发明申请公开(公告)号:US20120094142A1
公开(公告)日:2012-04-19
申请号:US13260843
申请日:2010-03-30
申请人: Koji Hoshino , Ji-Bin Yang , Kenji Orito , Shinichi Ohmori
发明人: Koji Hoshino , Ji-Bin Yang , Kenji Orito , Shinichi Ohmori
CPC分类号: H01G9/016 , B22F3/1125 , B22F7/006 , B22F9/04 , B22F2998/00 , C22C1/0416 , C22C1/08 , C22C21/00 , C22C21/003 , H01G9/052 , H01G9/0525 , H01G11/68 , H01G11/70 , H01M4/661 , H01M4/80 , H01M4/803 , Y02E60/13 , Y10T428/12479 , B22F7/04
摘要: This method for producing porous sintered aluminum includes: mixing aluminum powder with a sintering aid powder containing a sintering aid element to obtain a raw aluminum mixed powder; forming the raw aluminum mixed powder into a formed object prior to sintering having pores; and heating the formed object prior to sintering in a non-oxidizing atmosphere to produce porous sintered aluminum, wherein the sintering aid element is titanium, and when a temperature at which the raw aluminum mixed powder starts to melt is expressed as Tm (° C.), then a temperature T (° C.) of the heating fulfills Tm-10 (° C.)≦T≦685 (° C.).
摘要翻译: 该多孔烧结铝的制造方法包括:将铝粉与含有烧结助剂元素的烧结助剂粉末混合,得到原铝混合粉末; 在具有孔的烧结之前将原铝混合粉末形成成形体; 在非氧化性气氛中烧结之前加热成形体,制作多孔烧结铝,其中烧结助剂为钛,当原铝混合粉末开始熔化时的温度为Tm(℃)。 ),则加热的温度T(℃)满足Tm-10(℃)≦̸ T≦̸ 685(℃)。
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公开(公告)号:US07794853B2
公开(公告)日:2010-09-14
申请号:US12518509
申请日:2007-12-13
申请人: Kenji Orito , Toshiharu Hayashi , Masahiro Wada , Reiko Izumi , Koji Hoshino
发明人: Kenji Orito , Toshiharu Hayashi , Masahiro Wada , Reiko Izumi , Koji Hoshino
CPC分类号: H01M4/8807 , C23C24/087 , C23C28/042 , C23C28/048 , H01M4/8817 , H01M4/90 , H01M8/0232 , H01M8/0241 , H01M8/0245 , H01M2008/1095 , Y10S977/762 , Y10S977/81 , Y10S977/811 , Y10T428/12479 , Y10T428/12806 , Y10T428/12889
摘要: Porous titanium having a low contact resistance includes porous titanium body, Au, and Ti oxide layer (3). Porous titanium includes continuous holes (1) opening on a surface and being connected to inner holes and a skeleton (2). Au adheres to at least an outer skeletal surface (4) of the porous titanium via diffusion bonding to form a network structure. The Ti oxide layer (3) is formed in a clearance between adjacent Au cords (5) of the Au network sticking. The width of an Au cord (5) of the Au network is 0.3 to 10 μm at least at one position; and the thickness of the Ti oxide layer (3), which is formed in the clearance between adjacent Au cords (5) of the Au network is 30 to 150 nm.
摘要翻译: 具有低接触电阻的多孔钛包括多孔钛体,Au和Ti氧化物层(3)。 多孔钛包括在表面上开口并连接到内孔的连续孔(1)和骨架(2)。 Au通过扩散接合附着于多孔钛的至少外骨骼表面(4)以形成网络结构。 Ti氧化物层(3)形成在Au网络粘附的相邻Au电线(5)之间的间隙中。 Au网络的Au线(5)的宽度至少在一个位置为0.3至10μm; 并且在Au网络的相邻Au线(5)之间的间隙中形成的Ti氧化物层(3)的厚度为30〜150nm。
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公开(公告)号:US20100015507A1
公开(公告)日:2010-01-21
申请号:US12518509
申请日:2007-12-13
申请人: Kenji Orito , Toshiharu Hayashi , Masahiro Wada , Reiko Izumi , Koji Hoshino
发明人: Kenji Orito , Toshiharu Hayashi , Masahiro Wada , Reiko Izumi , Koji Hoshino
IPC分类号: H01M4/02
CPC分类号: H01M4/8807 , C23C24/087 , C23C28/042 , C23C28/048 , H01M4/8817 , H01M4/90 , H01M8/0232 , H01M8/0241 , H01M8/0245 , H01M2008/1095 , Y10S977/762 , Y10S977/81 , Y10S977/811 , Y10T428/12479 , Y10T428/12806 , Y10T428/12889
摘要: Porous titanium having a low contact resistance includes porous titanium body, Au, and a Ti oxide layer (3). Porous titanium includes continuous holes (1) opening on a surface and being connected to inner holes and a skeleton (2). Au adheres to at least an outer skeletal surface (4) of the porous titanium via diffusion bonding to form a network structure. The Ti oxide layer (3) is formed in a clearance between adjacent Au codes (5) of the Au network sticking. The width of an Au code (5) of the Au network is 0.3 to 10 μm at least at one position; and the thickness of the Ti oxide layer (3), which is formed in the clearance between adjacent Au codes (5) of the Au network is 30 to 150 nm.
摘要翻译: 具有低接触电阻的多孔钛包括多孔钛体,Au和Ti氧化物层(3)。 多孔钛包括在表面上开口并连接到内孔的连续孔(1)和骨架(2)。 Au通过扩散接合附着于多孔钛的至少外骨骼表面(4)以形成网络结构。 Ti氧化物层(3)形成在Au网络粘附的相邻Au代码(5)之间的间隙中。 Au网络的Au码(5)的宽度至少在一个位置为0.3〜10um; 并且在Au网络的相邻Au代码(5)之间的间隙中形成的Ti氧化物层(3)的厚度为30〜150nm。
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