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    • 5. 发明申请
    • Thermoelectric element and electronic component module and portable electronic apparatus using it
    • 热电元件和电子元件模块及其使用的便携式电子设备
    • US20050172991A1
    • 2005-08-11
    • US10518399
    • 2003-06-18
    • Tomohisa AraiTakashi RokutandaMasami Okamura
    • Tomohisa AraiTakashi RokutandaMasami Okamura
    • F25B21/02H01L35/30H01L35/28
    • H01L35/30F25B21/02F25B2321/025
    • A thermoelectric element (1) comprises N type thermoelectric semiconductors (4) and P type thermoelectric semiconductors (5) arranged between support members (2, 3). The N type and P type thermoelectric semiconductors (4, 5) are connected together in series by heat absorbing electrodes (6) and heat radiating electrodes (7) joined to the ends of these semiconductors. First heat transmitting members (8) are integrally provided to the heat radiating electrodes (7), and second heat transmitting members (9) are integrally provided to the heat absorbing electrodes (6) and are allowed to protrude in the same direction as (in a direction opposite to) the direction of the first heat transmitting members (8). The second heat transmitting members (9) function as heat radiating media when the thermoelectric element (1) is not in operation to dissipate the heat of a component (16) to be cooled into a radiation space via the second heat transmitting members (9).
    • 热电元件(1)包括N型热电半导体(4)和布置在支撑构件(2,3)之间的P型热电半导体(5)。 N型和P型热电半导体(4,5)通过与这些半导体的端部连接的吸热电极(6)和散热电极(7)串联连接在一起。 第一传热构件(8)一体地设置在散热电极(7)上,第二传热构件(9)一体地设置在吸热电极(6)上,并允许沿与 与第一传热部件(8)的方向相反的方向。 当热电元件(1)不工作时,第二传热构件(9)用作散热介质,以通过第二传热构件(9)将待冷却的部件(16)的热量散发到辐射空间中, 。
    • 6. 发明申请
    • High Hardness, High Corrosion Resistance and High Wear Resistance Alloy
    • 高硬度,高耐腐蚀和高耐磨合金
    • US20080121319A1
    • 2008-05-29
    • US11664275
    • 2005-09-22
    • Takashi RokutandaTomohisa AraiTakao KusakaNobuyoshi Jimbo
    • Takashi RokutandaTomohisa AraiTakao KusakaNobuyoshi Jimbo
    • C22C19/05C22F1/10C22C27/06C22F1/11
    • C22F1/10C22C19/05C22C19/052C22C19/053C22C19/055C22C19/058
    • There are provided a high hardness, high corrosion resistance and high wear resistance alloy, wherein the alloy is an aging heat treated Cr(chromium)-Al(aluminum)-Ni(nickel)-base alloy, the proportion of a mixed phase of (α phase+γ′ phase+γ phase) precipitated at grain boundaries of γ phase grains in a metal structure in the cross section of the alloy is not less than 95% in terms of area ratio, and the intensity ratio as measured by X-ray diffractometry of the alloy is not less than 50% and not more than 200% in terms of Iα(110)/[Iγ(200)+Iγ′(004)]×100, and a component comprising this alloy, a material for an alloy which can form this alloy, and a process for producing this alloy.The present invention can provide a Cr—Al—Ni-base alloy possessing excellent corrosion resistance, hardness, wear resistance, releasability, fatigue strength, and planishing property in a molding face, a component comprising this alloy, a material for an alloy which can form this alloy, and a process for producing this alloy.
    • 提供高硬度,高耐腐蚀性和高耐磨合金,其中该合金是老化热处理的Cr(铬)-Al(铝)-Ni(镍) - 基合金,混合相的比例( 在合金的横截面中的金属结构的γ相晶粒的晶界处析出的α相+γ'相+γ相)以面积比​​计不小于95%,并且通过X- 按照Ialpha(110)/ [Igamma(200)+ Igamma'(004)]×100,合金的射线衍射不小于50%且不大于200%,并且包含该合金的组分,用于 可以形成该合金的合金,以及该合金的制造方法。 本发明可以提供一种在成型面上具有优异的耐腐蚀性,硬度,耐磨性,脱模性,疲劳强度和平整性的Cr-Al-Ni基合金,包含该合金的组分, 形成该合金,以及该合金的制造方法。
    • 7. 发明授权
    • High hardness, high corrosion resistance and high wear resistance alloy
    • 高硬度,高耐蚀性和高耐磨合金
    • US08062441B2
    • 2011-11-22
    • US11664275
    • 2005-09-22
    • Takashi RokutandaTomohisa AraiTakao KusakaNobuyoshi Jimbo
    • Takashi RokutandaTomohisa AraiTakao KusakaNobuyoshi Jimbo
    • C22F1/10
    • C22F1/10C22C19/05C22C19/052C22C19/053C22C19/055C22C19/058
    • There are provided a high hardness, high corrosion resistance and high wear resistance alloy, wherein the alloy is an aging heat treated Cr(chromium)-Al(aluminum)-Ni(nickel)-base alloy, the proportion of a mixed phase of (α phase+γ′ phase+γ phase) precipitated at grain boundaries of γ phase grains in a metal structure in the cross section of the alloy is not less than 95% in terms of area ratio, and the intensity ratio as measured by X-ray diffractometry of the alloy is not less than 50% and not more than 200% in terms of Iα(110)/[Iγ(200)+Iγ′(004)]×100, and a component comprising this alloy, a material for an alloy which can form this alloy, and a process for producing this alloy. The present invention can provide a Cr—Al—Ni-base alloy possessing excellent corrosion resistance, hardness, wear resistance, releasability, fatigue strength, and planishing property in a molding face, a component comprising this alloy, a material for an alloy which can form this alloy, and a process for producing this alloy.
    • 提供高硬度,高耐腐蚀性和高耐磨合金,其中该合金是老化热处理的Cr(铬)-Al(铝)-Ni(镍) - 基合金,混合相的比例( 在合金的截面中金属结构的γ相晶粒的晶界析出的α相+γ'相+γ相,以面积比计为95%以上, 根据Iα(110)/ [Iγ(200)+Iγ'(004)]×100,合金的X射线衍射不小于50%且不大于200%,并且包含该合金的成分, 可以形成该合金的合金,以及该合金的制造方法。 本发明可以提供一种在成型面上具有优异的耐腐蚀性,硬度,耐磨性,脱模性,疲劳强度和平整性的Cr-Al-Ni基合金,包含该合金的组分, 形成该合金,以及该合金的制造方法。
    • 8. 发明申请
    • High hardness, high corrosion resistance and high wear resistance alloy
    • 高硬度,高耐蚀性和高耐磨合金
    • US20120097297A1
    • 2012-04-26
    • US13137941
    • 2011-09-22
    • Takashi RokutandaTomohisa AraiTakao KusakaNobuyoshi Jimbo
    • Takashi RokutandaTomohisa AraiTakao KusakaNobuyoshi Jimbo
    • C21D1/00C22C28/00C22C19/05
    • C22F1/10C22C19/05C22C19/052C22C19/053C22C19/055C22C19/058
    • There are provided a high hardness, high corrosion resistance and high wear resistance alloy, wherein the alloy is an aging heat treated Cr(chromium)-Al(aluminum)-Ni(nickel)-base alloy, the proportion of a mixed phase of (α phase+γ′ phase+γ phase) precipitated at grain boundaries of γ phase grains in a metal structure in the cross section of the alloy is not less than 95% in terms of area ratio, and the intensity ratio as measured by X-ray diffractometry of the alloy is not less than 50% and not more than 200% in terms of Iα(110)/[Iγ(200)+Iγ′(004)]×100, and a component comprising this alloy, a material for an alloy which can form this alloy, and a process for producing this alloy.The present invention can provide a Cr—Al—Ni-base alloy possessing excellent corrosion resistance, hardness, wear resistance, releasability, fatigue strength, and planishing property in a molding face, a component comprising this alloy, a material for an alloy which can form this alloy, and a process for producing this alloy.
    • 提供高硬度,高耐腐蚀性和高耐磨合金,其中该合金是老化热处理的Cr(铬)-Al(铝)-Ni(镍) - 基合金,混合相的比例( 在合金的截面中金属结构的γ相晶粒的晶界析出的α相+γ'相+γ相,以面积比计为95%以上, 根据Iα(110)/ [Iγ(200)+Iγ'(004)]×100,合金的X射线衍射不小于50%且不大于200%,并且包含该合金的成分, 可以形成该合金的合金,以及该合金的制造方法。 本发明可以提供一种在成型面上具有优异的耐腐蚀性,硬度,耐磨性,脱模性,疲劳强度和平整性的Cr-Al-Ni基合金,包含该合金的组分, 形成该合金,以及该合金的制造方法。
    • 9. 发明授权
    • Electrostatic printing apparatus having an erase lamp
    • 具有擦除灯的静电印刷装置
    • US6070032A
    • 2000-05-30
    • US323842
    • 1999-06-02
    • Takashi RokutandaTakao UmedaYukio Otome
    • Takashi RokutandaTakao UmedaYukio Otome
    • G03G15/00G03G21/08G03G15/04G03G21/00
    • G03G21/08Y10S430/102
    • In an electrostatic printing apparatus, the residual image phenomenon conspicuously observed at low density printing can be eliminated while photo-deterioration of the photosensitive body is being suppressed to a minimum in a high speed printing process. A charging unit, a writing light source, a developing unit, a transfer unit, a first erase lamp, an AC discharging unit and a second erase lamp are arranged around a photosensitive drum. Therein, the light intensity of the erase lamp is strengthened when the density of a printed image is light and is weakened when the density of the printed image is dark. That is, by changing the light intensity of the erase lamps corresponding to a developing bias, the residual image phenomenon can be eliminated while suppressing deterioration of the photosensitive drum to a minimum.
    • 在静电印刷装置中,可以消除在低密度印刷时明显观察到的残留图像现象,同时在高速印刷工艺中将感光体的光劣化抑制到最小。 在感光鼓周围布置充电单元,书写光源,显影单元,转印单元,第一擦除灯,AC放电单元和第二擦除灯。 其中,当打印图像的浓度较浅时,擦除灯的光强度增强,并且当打印图像的浓度变暗时,擦除灯的光强度变弱。 也就是说,通过改变对应于显影偏压的擦除灯的光强度,可以消除残留图像现象,同时将感光鼓的劣化抑制到最小。