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公开(公告)号:US20060032441A1
公开(公告)日:2006-02-16
申请号:US11176305
申请日:2005-07-08
申请人: Daniel Clark , Jeffrey Allen , Justin Burrows
发明人: Daniel Clark , Jeffrey Allen , Justin Burrows
IPC分类号: C23C16/00 , H01L21/306
CPC分类号: C23C8/00 , B01D2257/102 , B01D2257/104 , B01D2257/108 , B01D2257/80 , C23C4/137 , C23C26/00
摘要: A method for recycling an inert gas evacuated from a material deposition process chamber 10 comprises cooling the evacuated inert gas and recirculating a proportion of the cooled gas to the chamber 10 at a first temperature for use as a cooling gas in the material deposition process 12, and recirculating a proportion of the cooled gas to the chamber 10 at a second temperature for use as a shielding gas in the material deposition process 12, the second temperature being higher than the first temperature. Apparatus 22 for recycling an inert gas is also disclosed.
摘要翻译: 用于再循环从材料沉积处理室10排出的惰性气体的方法包括冷却所抽空的惰性气体并将一部分冷却的气体在第一温度下再循环到室10中,以用作材料沉积工艺12中的冷却气体, 并且在第二温度下将一部分冷却的气体再循环到室10中,以用作材料沉积工艺12中的保护气体,第二温度高于第一温度。 还公开了用于再循环惰性气体的装置22。
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2.发明授权Method of supporting a tool and an apparatus for supporting a tool in an assembled apparatus 有权支撑工具的方法和用于在组装的装置中支撑工具的装置公开(公告)号:US09073156B2
公开(公告)日:2015-07-07
申请号:US13454336
申请日:2012-04-24
申请人: Daniel Clark , Justin Burrows , James Kell
发明人: Daniel Clark , Justin Burrows , James Kell
CPC分类号: F01D25/285 , B23Q9/0042 , B23Q17/2409 , F01D5/005 , F01D9/02 , F01D9/065 , F01D21/003 , F01D25/002 , F05D2230/72 , F05D2240/14 , F05D2260/83 , F16L3/01 , F16L3/02 , F16M13/02 , F16M13/022 , G02B23/2476 , Y10T29/49318 , Y10T29/49826
摘要: A method of supporting a tool (106) in an assembled apparatus (10) comprises the steps of (a) inserting a support structure (60) through a first aperture (52,56) in a casing (50,54) of the apparatus (10), a first end (62) of the support structure (60) being outside the casing (50,54) and a second end (64) of the support structure (60) being inside the casing (50,54), (b) securing the first end (60) of the support structure (60) to the casing (50,54), (c) arranging a first portion (78) of the support structure (60) to abut at least one surface within the casing (50,54), (d) inserting a tool (106) through the first aperture (52,54) or a second aperture in the casing (50,54), and (e) securing the tool (106) to a second portion (102) of the support structure (60) within the casing (50,54).
摘要翻译: 在组装的装置(10)中支撑工具(106)的方法包括以下步骤:(a)将支撑结构(60)穿过设备的壳体(50,54)中的第一孔(52,56)插入 (10),所述支撑结构(60)的位于所述壳体(50,54)外部的第一端(62)和所述支撑结构(60)的位于所述壳体(50,54)内的第二端(64) (b)将支撑结构(60)的第一端(60)固定到壳体(50,54)上,(c)将支撑结构(60)的第一部分(78)布置成邻接至少一个表面 所述壳体(50,54),(d)通过所述第一孔(52,54)插入工具(106)或所述壳体(50,54)中的第二孔,以及(e)将所述工具(106)固定到 在所述壳体(50,54)内的所述支撑结构(60)的第二部分(102)。
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公开(公告)号:US08980639B2
公开(公告)日:2015-03-17
申请号:US13265158
申请日:2010-04-16
申请人: Daniel Clark , Justin Burrows
发明人: Daniel Clark , Justin Burrows
CPC分类号: G01N21/643 , G01N21/91 , G01N31/22
摘要: The present invention is concerned with a method of discriminating between, in a surface of a transition metal alloy, transition metals in different oxidation states using surface sensor molecules adapted to associate selectively with one of the transition metals. In particular, the present invention provides a method of identifying degradation in aircraft components such as turbine blades, engine casings and aerofoils. In embodiments, a surface sensor molecule comprising an oxidation state discriminating group, such as an imidazole, and a fluorescein probe is applied in aqueous solution to the surface of a service-run Ni alloy aircraft component. The sensor molecule selectively associates with transition metals in oxidation states greater than zero such that fluorescence imaging can be used to identify areas of degradation.
摘要翻译: 本发明涉及在过渡金属合金的表面中使用适于与选择性地与过渡金属之一相关联的表面传感器分子来区分不同氧化态的过渡金属的方法。 特别地,本发明提供了一种识别飞行器部件如涡轮叶片,发动机壳体和机翼的退化的方法。 在实施方案中,将包含氧化状态鉴别基团(例如咪唑)和荧光素探针的表面传感器分子在水溶液中施加到服务运行的Ni合金飞机部件的表面。 传感器分子选择性地与大于零的氧化态的过渡金属缔合,使得荧光成像可用于鉴定降解区域。
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公开(公告)号:US20120040467A1
公开(公告)日:2012-02-16
申请号:US13265158
申请日:2010-04-16
申请人: Daniel Clark , Justin Burrows
发明人: Daniel Clark , Justin Burrows
CPC分类号: G01N21/643 , G01N21/91 , G01N31/22
摘要: The present invention is concerned with a method of discriminating between, in a surface of a transition metal alloy, transition metals in different oxidation states using surface sensor molecules adapted to associate selectively with one of the transition metals. In particular, the present invention provides a method of identifying degradation in aircraft components such as turbine blades, engine casings and aerofoils. In embodiments, a surface sensor molecule comprising an oxidation state discriminating group, such as an imidazole, and a fluorescein probe is applied in aqueous solution to the surface of a service-run Ni alloy aircraft component. The sensor molecule selectively associates with transition metals in oxidation states greater than zero such that fluorescence imaging can be used to identify areas of degradation.
摘要翻译: 本发明涉及在过渡金属合金的表面中使用适于与选择性地与过渡金属之一相关联的表面传感器分子来区分不同氧化态的过渡金属的方法。 特别地,本发明提供了一种识别飞行器部件如涡轮叶片,发动机壳体和机翼的退化的方法。 在实施方案中,将包含氧化态鉴别基团(例如咪唑)和荧光素探针的表面传感器分子在水溶液中施加到服务运行的Ni合金飞机部件的表面。 传感器分子选择性地与大于零的氧化态的过渡金属缔合,使得荧光成像可用于鉴定降解区域。
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公开(公告)号:US20050281702A1
公开(公告)日:2005-12-22
申请号:US11133213
申请日:2005-05-20
申请人: Daniel Clark , Justin Burrows
发明人: Daniel Clark , Justin Burrows
CPC分类号: B22F3/14 , B22F3/105 , B22F2998/10 , B22F2999/00 , B22F3/1208 , B22F3/15 , B22F2202/01
摘要: A method of consolidating a powder (10) comprises the steps of filling an electrically conductive container (12) with the powder (10). Any air is evacuated out of the filled container (12), which is then sealed. The sealed container (12) is placed in a die (20) and a force is applied to consolidate the powder (10). Simultaneously an electric pulse and an ultrasonic pulse are applied to the container (12) as the powder (10) is consolidated. The electric and ultrasound pulses are applied during consolidation to disrupt the grain boundaries and assist in the fragmentation of any oxides. The container (12) is then removed from the die (20) and from the consolidated powder (10).
摘要翻译: 固化粉末(10)的方法包括以下步骤:用粉末(10)填充导电容器(12)。 任何空气从填充的容器(12)中排出,然后密封。 将密封容器(12)放置在模具(20)中并施加力以固结粉末(10)。 同时,当粉末(10)被固结时,电脉冲和超声波脉冲被施加到容器(12)。 在固结期间施加电和超声脉冲以破坏晶界并有助于任何氧化物的破碎。 然后将容器(12)从模具(20)和固结粉末(10)中取出。
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