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    • 4. 发明申请
    • ANODE DISK ELEMENT COMPRISING A CONDUCTIVE COATING
    • 包含导电涂层的阳极盘元件
    • US20120093296A1
    • 2012-04-19
    • US13376449
    • 2010-06-22
    • Kevin KraftGerald James CarlsonPaul Xu
    • Kevin KraftGerald James CarlsonPaul Xu
    • H01J35/08H01J9/02
    • H01J35/108H01J35/105H01J2235/081H01J2235/086H01J2235/1229H01J2235/1245
    • The present invention relates to X-ray generating technology in general, in particular, it relates to an anode disk element (1) for an X-ray generating device (21). The generation of electromagnetic radiation may be considered to be quite inefficient, since a substantial part of energy applied to a focal track is converted to heat rather than X-radiation. Thus, a limiting factor in the operation of X-ray tubes is the cooling of the anode element and more specifically the focal track. In the present invention, an anode disk element is provided, with an improved dissipation of heat from the focal track. Thus, the anode disk element may sustain increased heat while maintaining structural integrity. The anode disk element (1) comprises at least a first surface (2) and a second surface (3), with the first surface (2) comprising a focal track (4) and the second surface (3) comprising a conductive coating (5). The anode disk element (1) is rotatable about a rotational axis (6) with the focal track (4) being rotationally symmetrical to the rotational axis (6). The first surface (2) comprising the focal track (4) and the second surface (3) comprising the conductive coating (5) are adjacently arranged.
    • 本发明一般涉及X射线产生技术,特别涉及一种用于X射线产生装置(21)的阳极盘元件(1)。 电磁辐射的产生可能被认为是非常低效的,因为施加到焦点轨道的大部分能量被转换为热而不是X射线。 因此,X射线管的操作的限制因素是阳极元件的冷却,更具体地说是焦点轨迹。 在本发明中,提供了一种阳极盘元件,其具有来自焦点轨迹的热量的改善的散热。 因此,阳极盘元件可以维持增加的热量同时保持结构完整性。 阳极盘元件(1)至少包括第一表面(2)和第二表面(3),第一表面(2)包括焦点轨道(4),第二表面(3)包括导电涂层 5)。 阳极盘元件(1)可绕旋转轴线(6)旋转,其中焦点轨道(4)与旋转轴线(6)旋转对称。 包括焦点轨道(4)的第一表面(2)和包括导电涂层(5)的第二表面(3)相邻布置。
    • 9. 发明申请
    • Extraction of Depositional Systems
    • 沉积系统的提取
    • US20080015784A1
    • 2008-01-17
    • US11766287
    • 2007-06-21
    • Geoffrey DornWilliam HammondJames Carlson
    • Geoffrey DornWilliam HammondJames Carlson
    • G01V1/30
    • G01V1/32G01V1/30G01V2210/48
    • A process that assists with the identification of potential hydrocarbon deposits that includes performing a structural interpretation of a three-dimensional seismic volume, transforming the three-dimensional seismic volume into a stratal-slice volume, performing a stratigraphic interpretation of the stratal-slice volume which includes the extracting of bounding surfaces and faults and transforming the stratal-slice volume into the spatial domain. As illustrated in FIGS. 24a, b and c, an exemplary seismic volume before Domain Transformation is presented in FIG. 24a, interpreted horizons and faults used in the transformation are presented in FIG. 24b, and the Domain Transformed stratal-slice volume is presented in FIG. 24c. The input seismic volume in FIG. 24a has deformations associated with syn- and post-depositional faulting. The output Domain Transformed volume (FIG. 24c) is substantially free of deformations.
    • 协助识别潜在碳氢化合物沉积物的过程包括进行三维地震体积的结构解释,将三维地震体积变换为地层切片体积,对地层切片体积进行地层解释, 包括提取边界面和断层,并将地层切片体积转化为空间域。 如图1和2所示。 如图24a,b和c所示,在域变换之前的示例性地震体积在图1中示出。 在图24中示出了在转换中使用的解释性视野和故障。 在图24中示出了域变换的层状切片体积。 24 c。 图1中的输入地震体积。 24 a具有与沉积后沉积相关的变形。 输出域变换体积(图24c)基本上没有变形。