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    • 2. 发明申请
      US20080257723A1 Physical Vapor Deposition System 有权
    • Physical Vapor Deposition System
    • 物理气相沉积系统
    • US20080257723A1
    • 2008-10-23
    • US11577305
    • 2005-10-14
    • Atsushi YumotoNaotake NiwaFujio HirokiIchiro ShiotaTakahisa Yamamoto
    • Atsushi YumotoNaotake NiwaFujio HirokiIchiro ShiotaTakahisa Yamamoto
    • C23C14/34
    • C23C14/228C23C14/22
    • A physical vapor deposition system for making microparticles generated by using a non-transfer type plasma torch not generating an outgas even in an ultra-high vacuum environment accelerate by a supersonic gas flow and depositing microparticles on a substrate to form a coating film is provided. Provision is made of an evaporation chamber (10, 20) having a plasma torch (16, 26) and an evaporation source (15, 25) inside it and a film formation chamber 30 having a supersonic nozzle 35 and a substrate for film formation 33. Each plasma torch has a substantially cylindrical electrically conductive anode 40, a polymer-based or non-polymer-based insulation pipe 50 inserted to the inner side of that and generating less outgas than a Bakelite, and a rod shaped cathode 60 inserted to the inner side of an insulation pipe 50. Microparticles are generated from an evaporation source (15, 25) by a plasma obtained by applying voltages to the anode 40 and the cathode 60, ejected from a supersonic nozzle 35, made to ride on a supersonic gas flow, and deposited by physical vapor deposition onto a substrate for film formation 33.
    • 提供了一种用于制造通过使用非转移型等离子体焰炬而产生的微粒的物理气相沉积系统,即使在超高真空环境中也不产生逸出气体,并通过超音速气流加速并将微粒沉积在基底上以形成涂膜。 具有在其内部具有等离子体焰炬(16,26)和蒸发源(15,25)的蒸发室(10,20)和具有超音速喷嘴35和成膜基片33的成膜室30 。 每个等离子体焰炬具有基本上圆柱形的导电阳极40,插入其内侧的基于聚合物或非聚合物的绝缘管50,并产生比电木炭少的排气,以及插入内部的棒状阴极60 绝缘管50的一侧。 通过将电压施加到阳极40和阴极60获得的等离子体从蒸发源(15,25)产生微粒,其由超声波喷嘴35喷射,使其骑在超音速气流上,并通过物理气相沉积 到用于成膜的基材33上。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 3. 发明授权
      US08136480B2 Physical vapor deposition system 有权
    • Physical vapor deposition system
    • 物理气相沉积系统
    • US08136480B2
    • 2012-03-20
    • US11577305
    • 2005-10-14
    • Atsushi YumotoNaotake NiwaFujio HirokiIchiro ShiotaTakahisa Yamamoto
    • Atsushi YumotoNaotake NiwaFujio HirokiIchiro ShiotaTakahisa Yamamoto
    • C23C16/00C23C16/50
    • C23C14/228C23C14/22
    • A physical vapor deposition system for making microparticles generated by using a non-transfer type plasma torch not generating an outgas even in an ultra-high vacuum environment accelerate by a supersonic gas flow and depositing microparticles on a substrate to form a coating film is provided. Provision is made of an evaporation chamber (10, 20) having a plasma torch (16, 26) and an evaporation source (15, 25) inside it and a film formation chamber 30 having a supersonic nozzle 35 and a substrate for film formation 33. Each plasma torch has a substantially cylindrical electrically conductive anode 40, a polymer-based or non-polymer-based insulation pipe 50 inserted to the inner side of that and generating less outgas than a phenol resin, and a rod shaped cathode 60 inserted to the inner side of an insulation pipe 50. Microparticles are generated from an evaporation source (15, 25) by a plasma obtained by applying voltages to the anode 40 and the cathode 60, ejected from a supersonic nozzle 35, made to ride on a supersonic gas flow, and deposited by physical vapor deposition onto a substrate for film formation 33.
    • 提供了一种用于制造通过使用非转移型等离子体焰炬而产生的微粒的物理气相沉积系统,即使在超高真空环境中也不产生逸出气体,并通过超音速气流加速并将微粒沉积在基底上以形成涂膜。 具有在其内部具有等离子体焰炬(16,26)和蒸发源(15,25)的蒸发室(10,20)和具有超音速喷嘴35和成膜基片33的成膜室30 每个等离子体焰炬具有基本上圆柱形的导电阳极40,插入其内侧的基于聚合物或非聚合物的绝缘管50,并且产生比酚醛树脂少的排气,以及插入到 绝缘管50的内侧。通过对从阳极40和阴极60施加电压而获得的等离子体从蒸发源(15,25)产生微粒,从超音速喷嘴35喷射,制成骑在超音速 气流,并通过物理气相沉积沉积到用于成膜的基底上33。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
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