|
|
Research Progress on Broadband Electromagnetic Angular Vibration Calibration System |
TANG Bo1,2,HE Wen1,LIU Ai-dong3 |
1. Zhejiang Province Key Laboratory of Advanced Manufacturing Technology,Zhejiang University,Hangzhou,Zhejiang 310027,China
2. College of Metrology and Measurement Engineering,China Jiliang University,
Hangzhou,Zhejiang 310018,China
3. National Institute of Metrology,Beijing 100029,China |
|
|
Abstract On the basis of analyzing laser interferometry, the system composition, principle of measurement, data processing and measurement range for the angular vibration measurement method of A-type and B-type laser interferometry are described systematically, and it is especially pointed out that the performance of angular vibrators directly affects the angular vibration calibration result. On this basis, the research status and progress of angular vibrators are analyzed at home and abroad, and the specifications, application scopes and limitations of different types are pointed out. Finally, the electromechanical coupling equation of broadband angular vibrators is established, and the key techniques involved, such as design technology of a moving component with high torsional resonant frequency, design technology of a magnetic circuit structure with strong and uniform air gap magnetic field and design technology of an adjustable electro-viscoelastic-support device, are analyzed in depth, and the corresponding research ideas and suggestions are given.
|
Received: 09 January 2020
Published: 18 October 2021
|
|
|
|
|
[1]Lancelle D M, Boic′ O, Koke H. Flight test results of the investigation of acceleration effects on a gunlau-nched rocket engine[J]. IEEE Transactions on Plasma Science, 2013, 41 (5): 1364-1369.
[2]徐梦洁, 李醒飞, 吴腾飞, 等. 磁流体动力学陀螺仪的结构设计与实验研究[J]. 仪器仪表学报, 2015, 36 (2): 394-400.
Xu M J, Li X F, Wu T F, et al. Structure design and experiment study for MHD gyroscope[J]. Chinese Journal of Scientific Instrument, 2015, 36 (2): 394-400.
[3]于梅, 刘爱东, 何闻, 等. 衍射光栅外差激光干涉法角振动校准技术研究[J]. 计量学报, 2015, 36 (6): 561-564.
Yu M, Liu A D, He W, et al. Angle vibration calibration technology research by diffraction grating heterodyne laser interferometry [J]. Acta Metrologica Sinica, 2015, 36 (6): 561-564.
[4]ISO 16063-2006 Methods for calibration of vibration and shock transducers [S]. 2006.
[5]杨明, 蔡晨光, 刘志华, 等. 基于外差激光干涉法的三轴向振动绝对校准方法研究[J]. 计量学报, 2018, 39 (2): 201-206.
Yang M, Cai C G, Liu Z H, et al. Research on the method of the triaxial primary vibration calibration using the heterodyne interferometry [J]. Acta Metrologica Sinica, 2018, 39 (2): 201-206.
[6]郎需英. 精密角振动台的试验研究[J]. 航空精密机械工程, 1986, (4): 7-14.
Lang X Y. Experimental study of the precision angular vibrator [J]. Aviation Precision Mechanical Engineering, 1986, (4): 7-14.
[7]彭军, 何群, 孙丰甲. 动态角运动校准技术综述[J]. 计测技术, 2008, 28 (5): 1-4, 9.
Peng J, He Q, Sun F J. The development of dynamic angle movement calibration technology[J]. Metrology & Measurement Technology, 2008, 28 (5): 1-4, 9.
[8]Martens H J V. Current state and trends of ensuring traceability for vibration and shock measurements[J]. Metrologia, 1999, 36, 357-373.
[9]Cheung W S, Park S M. Progress in development of primary angular vibration calibration systems[C]//IM-EKO 20th TC3, 3rd TC16 and 1st TC22 International Conference, Cultivating Metrological Knowledge, Merida, Mexico, 2007.
[10]Park S M, Cheung W S. Dynamic characteristics of new electro-dynamic angular exciter[C]//The 15th International Congress on Sound and Vibration, Daeje-on, Korea, 2008.
[11]Cheung W S, Light T. Progress in development of calibration systems for angular vibration pickups[C]//XIX IMEKO World Congress, Lisbon, Portugal, 2009: 2495-2500.
[12]Cheung W S, Park T I. Development of portable angular vibration exciters[C]//TC3, TC5 and TC22 IMEKO Conference, Chonburi, Thailand, 2010: 247-252.
[13]Zhang L, Peng J. A primary angular acceleration calibration standard[C]//XVIII IMEKO World Congress, Rio de Janeiro, Brazil, 2006.
[14]薛景锋, 彭军, 李新良, 等. 角振动校准装置研究[J], 航空学报, 2015, 36 (3): 962-969.
Xue J F, Peng J, Li X L, et al. Research on angular vibration calibration devices[J]. Acta Aeronautica et Astronautica Sinica, 2015, 36 (3): 962-969.
[15]胡红波, 杨丽峰, 于梅. 零差干涉仪用于振动校准中关键技术的研究[J]. 计量学报, 2018, 39 (3): 368-372.
Hu H B, Yang L F, Yu M. Study on key technologies of vibration calibration using homodyne interferometer[J]. Acta Metrologica Sinica, 2018, 39 (3): 368-372.
[16]Martens H J V. On the errors and uncertainty of interferometric measurements of linear and torsional Vibrations[J]. Proceedings of SPIE, 1994, 2358, 2-12.
[17]Martens H J V. Investigations into the uncertainties of interferometric measurements of linear and torsional vibrations[J]. Shock and Vibration, 1997, 4 (5/6): 327-340.
[18]Taubner A, Martens H V. Development of special diffraction grating interferometers to realize and disseminate the unit of angular acceleration [J].Proceedings of SPIE, 1996, 2868, 438-448.
[19]Martens H J V. Taubner A, Wabinski W, et al. Laser interferometry-tool and object in vibration and shock calibrations [J]. Proceedings of SPIE, 1998, 3411: 195-206.
[20]Link A, Martens H J V. Amplitude and phase mea-surement of sinusoidal vibration in the nanometer range using laser interferometry[J]. Measurement, 1998, 24 (1): 55-67.
[21]于梅, 孙桥, 冯源, 等. 正弦逼近法振动传感器幅相特性测量技术的研究[J]. 计量学报, 2004, 25 (4): 344-348.
Yu M, Sun Q, Feng Y, et al. A study of application of the sine-approximation method to the primary vibration calibration [J]. Acta Metrologica Sinica, 2004, 25 (4): 344-348.
[22]Martens H J V, Taubner A, Wabinski W, et al. Traceability of vibration and shock measurements by laser interferometry [J]. Measurement, 2000, 28 (1): 3-20.
[23]林云春. 国内外角振动台综述[J]. 航空科学技术, 1993, (3): 26-28.
Lin Y Q. Review of domestic and foreign angular vibration tables[J]. Aeronautical Science & Technology, 1993, (3): 26-28.
[24]Schlaak H J. Excitation of low-frequency rotational vibration[J]. Journal of Low Frequency Noise and Vibration, 1993, 12 (4): 123-127.
[25]薛景锋, 赵维谦, 邵新慧. 高频角振动激励源设计及关键技术[J]. 中国惯性技术学报, 2013, 21 (6): 840-844.
Xue J F, Zhao W Q, Shao X H. Design and key technology of high frequency angular vibration excitation source[J]. Journal of Chinese Inertial Technology, 2013, 21 (6): 840-844.
[26]He W, Tang B, Jia S S. Design, simulation and development of a broadband electromagnetic angular vibrator[J]. International Journal of Applied Electromagnetics and Mechanics, 2018, 57 (3): 295-307.
[27]刘爱东, 于梅, 何闻. 角振动测量方法的研究[J]. 振动与冲击, 2018, 37 (12): 216-219.
Liu A D, Yu M, He W. A study of an angle vibration measuring method[J]. Journal of Vibration and Shock, 2018, 37 (12): 216-219.
[28]唐波, 何闻. 宽频带电磁式角振动台运动部件动态优化设计[J]. 农业机械学报, 2015, 46 (10): 376-382, 390.
Tang B, He W. Dynamic optimization design of moving component for broadband electromagnetic angular vibration[J]. Transactions of the Chinese Society for Agricu-ltural Machinery, 2015, 46 (10): 376-382, 390.
[29]唐波, 何闻. 大位移角振动台的气隙磁场动静态特性分析[J]. 仪器仪表学报, 2017, 38 (4): 895-902.
Tang B, He W. Dynamic and static characteristics analysis of air-gap magnetic field of a large displacement angular vibrator[J]. Chinese Journal of Scientific Instr-ument, 2017, 38 (4): 895-902.
[30]Tang B, He W, Jia S S. A double-magnetic-source magnetic circuit with pole shoes for an electromagnetic angular vibration exciter[J]. International Journal of Applied Electromagnetics and Mechanics, 2017, 54 (4): 461-470. |
|
|
|