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    • 4. 发明专利
    • Eddy current flaw detection probe and eddy current flaw detection system
    • EDDY电流检测探头和EDDY电流检测系统
    • JP2006138784A
    • 2006-06-01
    • JP2004329970
    • 2004-11-15
    • Tohoku Univ国立大学法人東北大学
    • ENDO HISASHIABE TOSHIHIKOUCHIKAZU TETSUYATAKAGI TOSHIYUKI
    • G01N27/90
    • PROBLEM TO BE SOLVED: To provide an eddy current flaw detection probe for correcting eddy current flaw detection signals caused by the distance and inclination angle between a specimen and a coil by putting noncontact and nonmagnetic distance sensors side by side with the eddy current flaw detection measurement coil and measuring the eddy current flaw detection signals and distance sensor signals simultaneously.
      SOLUTION: The noncontact and nonmagnetic distance sensors 2 for transmitting and receiving light 3 to and from the eddy current flaw detection coil 1 are put side by side, measure a signal obtained from the distance sensor 2 simultaneously with the eddy current flaw detection signals, correct the eddy current flaw detection signal caused by lift-off, and separate the eddy current flaw detection signal caused by marks and a change 4 in quality. When a plurality of distance sensors 2 are put side by side with the eddy current flaw detection coil 1, the inclination 7 of the coil is calculated by computing a signal obtained by each distance sensor 2, thus correcting the eddy current flaw detection signals precisely.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种涡流探伤探头,用于通过将非接触和非磁距离传感器与涡流并排地并排放置来校正由样品和线圈之间的距离和倾斜角引起的涡流探伤信号 探伤测量线圈并同时测量涡流探伤信号和距离传感器信号。 < P>解决方案:将来自涡流探伤线圈1的光3的发射和接收的非接触和非磁距离传感器2并排放置,同时测量从距离传感器2获得的信号与涡流探伤线 信号,纠正由剥离引起的涡流探伤信号,并分离由标记引起的涡流探伤信号和质量变化4。 当多个距离传感器2与涡流探伤线圈1并排放置时,通过计算由每个距离传感器2获得的信号来计算线圈的倾斜度7,从而精确地校正涡流探伤信号。 版权所有(C)2006,JPO&NCIPI
    • 5. 发明专利
    • Simulated stress corrosion cracking test body and method of manufacturing the same
    • 模拟应力腐蚀开裂试验体及其制造方法
    • JP2011163800A
    • 2011-08-25
    • JP2010024054
    • 2010-02-05
    • Tohoku Univ国立大学法人東北大学
    • YUSA KUNITAKAUCHIKAZU TETSUYATAKAGI TOSHIYUKIHASHIZUME HIDETOSHI
    • G01N17/00
    • PROBLEM TO BE SOLVED: To provide a technology capable of inexpensively producing a test body providing a nondestructive inspection signal equivalent with that of actual stress corrosion cracking while quantitatively controlling properties thereof. SOLUTION: In the test body, after irregularities are formed at part of joint interface of two or more metal test pieces having the joint interface, these test pieces are mutually solid-phase joined and a joint portion and a connecting portion area are provided at the joint interface. The nondestructive inspection test body includes the connecting portion area of the metal test pieces before connection consists of irregularities of ≥50 μm of roughness Ry and the roughness Ra at the joint portion other than the connecting portion area is ≤10 μm. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种能够廉价地生产提供与实际应力腐蚀开裂相当的非破坏性检查信号的测试体的技术,同时定量地控制其性质。 解决方案:在试验体中,在具有接合界面的两个以上的金属试验片的接合界面的一部分形成有凹凸,这些试件相互固相接合,接合部和连接部的面积为 提供在联合界面。 非破坏性检查试验体包括连接前的金属试件的连接部分区域由粗糙度为≥50μm的凹凸不平度,连接部分以外的接合部的粗糙度Ra为≤10μm。 版权所有(C)2011,JPO&INPIT
    • 6. 发明专利
    • Evaluation method and device for graphite of cast iron
    • 评估方法和铸铁石墨装置
    • JP2009236670A
    • 2009-10-15
    • JP2008082932
    • 2008-03-27
    • Aisin Takaoka LtdTohoku Univアイシン高丘株式会社国立大学法人東北大学
    • KAMASAKA TAKASHITAKAGI TOSHIYUKIUCHIKAZU TETSUYA
    • G01N27/72G01N33/20
    • PROBLEM TO BE SOLVED: To provide an evaluation method and device for graphite of cast iron capable of determining a graphitic texture in cast iron of an inspected body from a determination value set based on a base wave and a harmonic in frequency analysis.
      SOLUTION: The evaluation method for graphite of cast iron inspects a cast iron texture of an inspected body 2 in which graphite is dispersed in a matrix structure and cast iron is a base material. The method includes an operation to make an input alternating magnetic field act on the inspected body 2 by flowing an AC current through an excitation section 5, an operation to detect at a detection section 6 an output alternating magnetic field due to an eddy current generating in the inspected body 2 by the input alternating magnetic field, and an analysis operation to frequency-analyze a voltage signal detected by the detection section 6. The graphite texture in cast iron of the inspected body 2 is determined from a determination value set based on the base wave and the harmonic in frequency analysis.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种能够从基于频率分析中的基波和谐波设定的判定值来确定检查体的铸铁中的石墨质地的铸铁用石墨的评价方法和装置。

      解决方案:铸铁石墨的评价方法检查被检体2的铸铁质地,其中石墨分散在基体结构中,铸铁是基材。 该方法包括通过使交流电流流过激励部分5使输入的交变磁场作用在检测体2上的操作,在检测部分6检测由于涡流产生的输出交变磁场的操作 检测体2通过输入交变磁场,以及分析动作,对由检测部6检测出的电压信号进行频率分析。被检体2的铸铁中的石墨质地由基于 基波和频率分析中的谐波。 版权所有(C)2010,JPO&INPIT

    • 8. 发明专利
    • Friction reducing method using rotary diamond sliding body
    • 使用旋转金刚石滑动体的减速方法
    • JP2006144979A
    • 2006-06-08
    • JP2004338293
    • 2004-11-24
    • Material Sendai:KkTohoku Univ国立大学法人東北大学株式会社マテリアル仙台
    • ABE TOSHIHIKOTAKAGI TOSHIYUKIUCHIKAZU TETSUYAKOHAMA YASUAKINAKAMORI ICHIROYASHIMA YOSHINOBU
    • F16C33/24
    • PROBLEM TO BE SOLVED: To solve conventional problems on oil lubrication or solid lubrication by rotating a disc subjected to a partially mirror polished CVD (chemical vapor deposition) diamond or DLC (diamond-like carbon) coating to actualize sliding motion with low friction as in air flotation.
      SOLUTION: Two coating plates each manufactured by applying a coating of a 10 μm-thick CVD diamond film to a 5 cm-in-diameter and 1 mm-thick polycrystal silicon substrate using a microwave CVD method (output 1 kW) are fitted to each other to form the partially mirror polished CVD diamond coating disc having a surface roughness of about 0.2 μm which is fixed to a small radial motor. The disc is put on a rolled aluminum plate. When the motor is rotated until its rotating speed reaches 1,200 rpm, the motor is put into a stational floating condition and it can be moved in any direction with slight pushing operation.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了通过旋转经受部分镜面抛光CVD(化学气相沉积)金刚石或DLC(类金刚石碳)涂层的盘来解决油润滑或固体润滑的常规问题,以实现低的滑动运动 在空气浮选中的摩擦力。 解决方案:通过使用微波CVD法(输出1kW)将10μm厚的CVD金刚石膜涂覆到5cm直径和1mm厚的多晶硅衬底上制造的两个涂层板是 彼此配合以形成具有约0.2μm的表面粗糙度的部分镜面抛光的CVD金刚石涂层盘,其被固定到小径向电动机。 将盘放在轧制的铝板上。 当电机旋转直到其转速达到1,200 rpm时,电机处于一个浮动状态,可以轻轻按下任何方向移动。 版权所有(C)2006,JPO&NCIPI