LEAF SEAL, IN PARTICULAR FOR A GAS TURBINE, AND METHOD OF PRODUCING IT
    3.
    发明申请
    LEAF SEAL, IN PARTICULAR FOR A GAS TURBINE, AND METHOD OF PRODUCING IT 有权
    叶片密封,特别用于气体涡轮机,以及生产它的方法

    公开(公告)号:US20070120326A1

    公开(公告)日:2007-05-31

    申请号:US11537211

    申请日:2006-09-29

    IPC分类号: F16J15/44

    CPC分类号: F16J15/3292

    摘要: A leaf seal for sealing a shaft rotating about an axis, in particular in a gas turbine, includes a plurality of spaced-apart leaves arranged in a concentric circle around the axis and fixed in position by brazing, the leaves having surfaces oriented essentially parallel to the axis. The leaves are brazed to one another via intermediate spacers made of a brazing foil, so that a brazed joint is produced by brazing alloy from the brazing foils. The brazing temperature may be set to an optimum value just above the solidus temperature of the brazing foil, at which partial melting of the brazing foil occurs and penetration of liquid brazing alloy into the gap between the leaves is avoided.

    摘要翻译: 用于密封围绕轴旋转的轴的叶片密封件,特别是在燃气轮机中,包括多个间隔开的叶片,该叶片围绕轴线以同心圆排列并且通过钎焊固定在适当位置,叶片具有基本平行于 轴。 通过由钎焊箔制成的中间隔板将叶片彼此钎焊,从而通过钎焊钎焊合金制造钎焊接头。 钎焊温度可以设定为刚好高于钎焊箔的固相线温度的最佳值,在该温度下发生钎焊箔的部分熔化,并且避免了液体钎焊合金渗透到叶片之间的间隙中。

    Leaf seal, in particular for a gas turbine, and method of producing it
    6.
    发明授权
    Leaf seal, in particular for a gas turbine, and method of producing it 有权
    叶片密封件,特别是用于燃气轮机的密封件及其制造方法

    公开(公告)号:US08220802B2

    公开(公告)日:2012-07-17

    申请号:US11537211

    申请日:2006-09-29

    IPC分类号: F16J15/447

    CPC分类号: F16J15/3292

    摘要: A leaf seal for sealing a shaft rotating about an axis, in particular in a gas turbine, includes a plurality of spaced-apart leaves arranged in a concentric circle around the axis and fixed in position by brazing, the leaves having surfaces oriented essentially parallel to the axis. The leaves are brazed to one another via intermediate spacers made of a brazing foil, so that a brazed joint is produced by brazing alloy from the brazing foils. The brazing temperature may be set to an optimum value just above the solidus temperature of the brazing foil, at which partial melting of the brazing foil occurs and penetration of liquid brazing alloy into the gap between the leaves is avoided.

    摘要翻译: 用于密封围绕轴旋转的轴的叶片密封件,特别是在燃气轮机中,包括多个间隔开的叶片,该叶片围绕轴线以同心圆排列并且通过钎焊固定在适当位置,叶片具有基本平行于 轴。 通过由钎焊箔制成的中间隔板将叶片彼此钎焊,从而通过钎焊钎焊合金制造钎焊接头。 钎焊温度可以设定为刚好高于钎焊箔的固相线温度的最佳值,在该温度下发生钎焊箔的部分熔化,并且避免了液体钎焊合金渗透到叶片之间的间隙中。

    Method for controlling the microstructure of a laser metal formed hard layer
    8.
    发明申请
    Method for controlling the microstructure of a laser metal formed hard layer 有权
    用于控制形成激光金属的硬质层的微结构的方法

    公开(公告)号:US20060081571A1

    公开(公告)日:2006-04-20

    申请号:US11071171

    申请日:2005-03-04

    IPC分类号: B23K26/34 B23K26/03

    摘要: It is disclosed a method of applying a coating (12) with a controlled laser metal forming process. A light source with a specific power and a signal capturing apparatus is moved over an article (1) to form locally a melt pool (7) on the surface (5) of the article (1) to which a coating powder (8) is injected. An optical signal (13) is captured from the melt pool (7), and the monitored optical signal (13) is used for the determination of the temperature and temperature fluctuations of the melt pool (7). Furthermore, a control system (16) is used to adjust at least one process parameter such as the power of the light source to obtain desired melt pool properties. Subsequently the melt pool (7) solidifies. The high degree of control over the microstructure provides an efficient tool for generating laser metal formed hard coatings (12) with optimised wear properties.

    摘要翻译: 公开了一种用受控的激光金属成形方法涂覆涂层(12)的方法。 具有特定功率的光源和信号捕获设备在物品(1)上移动以在制品(1)的表面(5)上局部形成熔池(7),涂料粉末(8) 注射 从熔池(7)捕获光信号(13),并且使用监视的光信号(13)来确定熔池(7)的温度和温度波动。 此外,控制系统(16)用于调节至少一个过程参数,例如光源的功率,以获得所需的熔池性质。 随后,熔池(7)固化。 对微观结构的高度控制提供了用于产生具有优化的耐磨性能的激光金属成形硬涂层(12)的有效工具。

    Method for controlling the microstructure of a laser metal formed hard layer
    9.
    发明授权
    Method for controlling the microstructure of a laser metal formed hard layer 有权
    用于控制形成激光金属的硬质层的微结构的方法

    公开(公告)号:US07705264B2

    公开(公告)日:2010-04-27

    申请号:US11071171

    申请日:2005-03-04

    IPC分类号: B23K26/00

    摘要: It is disclosed a method of applying a coating (12) with a controlled laser metal forming process. A light source with a specific power and a signal capturing apparatus is moved over an article (1) to form locally a melt pool (7) on the surface (5) of the article (1) to which a coating powder (8) is injected. An optical signal (13) is captured from the melt pool (7), and the monitored optical signal (13) is used for the determination of the temperature and temperature fluctuations of the melt pool (7). Furthermore, a control system (16) is used to adjust at least one process parameter such as the power of the light source to obtain desired melt pool properties. Subsequently the melt pool (7) solidifies. The high degree of control over the microstructure provides an efficient tool for generating laser metal formed hard coatings (12) with optimised wear properties.

    摘要翻译: 公开了一种用受控的激光金属成形方法涂覆涂层(12)的方法。 具有特定功率的光源和信号捕获设备在物品(1)上移动以在制品(1)的表面(5)上局部形成熔池(7),涂料粉末(8) 注射 从熔池(7)捕获光信号(13),并且使用所监视的光信号(13)来确定熔池(7)的温度和温度波动。 此外,控制系统(16)用于调节至少一个过程参数,例如光源的功率,以获得所需的熔池性质。 随后,熔池(7)固化。 对微观结构的高度控制提供了用于产生具有优化的耐磨性能的激光金属成形硬涂层(12)的有效工具。