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    • 11. 发明授权
    • Ultrasonic testing apparatus for pipe or tube end portion
    • 用于管或管端部的超声波检测装置
    • US08667847B2
    • 2014-03-11
    • US13239511
    • 2011-09-22
    • Kenji FujiwaraHiroshi KubotaTomoyuki ObataMasaki Yamano
    • Kenji FujiwaraHiroshi KubotaTomoyuki ObataMasaki Yamano
    • G01N29/04
    • G01N29/28G01N29/225G01N29/275G01N2291/052G01N2291/056G01N2291/103G01N2291/2634
    • An ultrasonic testing apparatus for a pipe end portion, which enables accurate ultrasonic testing, comprises an ultrasonic probe disposed under the pipe end portion. The probe 1 transmits ultrasonic waves to the pipe end portion and receives the ultrasonic waves therefrom. A probe holder houses the probe which is disposed under the pipe end portion to face the pipe end portion and follows the pipe rotation. The probe holder comprises a coupling medium reserver part that surrounds a space between the probe and the pipe end portion to contain a coupling medium therein and comprises a coupling medium reserver part body into which the coupling medium is supplied. An annular bellows part, which communicates with the reserver part body, can expand and contract vertically and an annular spacer, which is attached to the upper side of the bellows part and an upper surface thereof has a flat horizontal surface.
    • 一种用于管端部的超声波测试装置,其能够进行精确的超声波测试,包括设置在管端部下方的超声波探头。 探针1将超声波发送到管端部并从其接收超声波。 探针架容纳设置在管端部下面以与管端部相对并且跟随管旋转的探针。 探头支架包括耦合介质储存器部分,其围绕探针和管端部分之间的空间,以在其中容纳耦合介质,并且包括耦合介质储存器部件主体,耦合介质被供应到耦合介质保留部分主体中。 与储存部件主体连通的环状波纹管部分可以垂直地膨胀和收缩,并且附接到波纹管部分的上侧的环形间隔件及其上表面具有平坦的水平表面。
    • 12. 发明申请
    • METHOD OF MEASURING A CRYSTALLOGRAPHIC ORIENTATION OF AN OBJECT
    • 测量对象的晶体取向的方法
    • US20140000369A1
    • 2014-01-02
    • US13917055
    • 2013-06-13
    • ROLLS-ROYCE PLC
    • Christopher John Leslie LANE
    • G01N29/04
    • G01N29/041G01N29/07G01N29/343G01N2291/0289G01N2291/0423G01N2291/103G01N2291/106
    • A method of measuring a crystallographic orientation of an object using an ultrasonic transducer and a detector array including a plurality of ultrasonic detectors includes: determining a minimum distance between the transducer and the detector of the detector array closest to the transducer; placing the transducer and the detector array in contact with a surface of the object such that the transducer and the detector of the detector array closest to the transducer are separated by at least the minimum distance; using the transducer to generate an ultrasonic surface wave pulse in the surface of the object, the ultrasonic surface wave pulse having a pulse duration and including a longitudinal surface wave and a Rayleigh wave; and measuring a time of flight of a surface wave generated by the transducer between the transducer and each detector of the array to determine the crystallographic orientation of the object.
    • 使用超声波换能器和包括多个超声波探测器的检测器阵列测量物体的晶体取向的方法包括:确定换能器与最靠近换能器的检测器阵列的检测器之间的最小距离; 将所述传感器和所述检测器阵列放置成与所述物体的表面接触,使得所述传感器和所述检测器阵列的最靠近所述换能器的检测器至少被隔开所述最小距离; 使用所述换能器在所述物体的表面产生超声波表面波脉冲,所述超声波表面波脉冲具有脉冲持续时间并且包括纵向表面波和瑞利波; 并且测量由换能器和阵列的每个检测器之间的换能器产生的表面波的飞行时间,以确定物体的晶体取向。