作者:叶声华1, 秦树人2
作者单位:1. 天津大学, 天津 700072;
2. 重庆大学, 重庆 400044
关键词:测试测量; 仪器仪表; 制造技术
摘要:
当今制造技术的快速进步引发了许多新型测试计量问题,推动着传感器、测试计量仪器的研究与发展,促使测试计量技术中的新原理、新技术、新装置系统不断出现。和传统的技术比较,现代测试计量技术呈现出测量仪器的作用愈加重要,新的仪器不断出现,如便携式形貌测量、基于视觉的在线检测、基于机器人的在线检测与监控、微/纳米级测量和虚拟测试技术等。除此,仪器设备的精确度有了质的飞跃,自动化程度得到显著改善,同时在计算机软、硬件的支持下,其功能得到极大拓展,展现出一片欣欣向荣的景象。当务之急,是针对测试计量技术应用特点,分析我国的现状,比较与国外同类技术存在的差距,探讨在目前条件下我国测试计量技术的发展重点和趋势。在未来的测试计量技术及仪器技术的发展中,针对实际存在的问题和发展趋势,着力加大科研投入,重视基础研究,紧密联系工程应用。相信在不久的将来,我国测试计量技术定可获得快速的发展,为我国科学技术和国民经济的发展发挥更大的作用。
Development of modern measuring metrological and instrumental technologies
YE Sheng-hua1, QIN Shu-ren2
1. Tianjin University, Tianjin 700072, China;
2. Chongqing University, Chongqing 400044, China
Abstract: A lot of new problems in measurement and metrologica are aroused by the fast development of current manufacture technology, which promotes the research and development of sensors and instruments for measuring and metrologica and urges the coming out of new principles, new technologies, new equipments. Compared with traditional measuring technologies, in the modern measuring and metrological technologies such as portable pattern measurement, online detection based on machine vision, online testing and monitoring based on robots, micron/nanometer level measurement and virtual instruments, more important roles are played by measuring instruments, and new instruments keeps coming out. Except that, the precision of instruments and equipments gets a substantial improvement, the automatic degree of instruments gets a remarkable promotion, and at the same time, the function of instruments gets extremely extended. All these portray a flourishing view. The urgent affaire currently is according to the features of measuring, metrologica technologies to analyze the situation of testing and measuring technologies in our nation, get a clear view of the gap with the same kind of technologies overseas, and then discuss the emphasis and tendency of development. In the future development of measuring, metrologica and instrument technologies, if aiming at the practical problems and development trend, invest in scientific researches is increased, fundamental researches are emphasized, engineering application is closely involved, the measuring and metrologica technologies in our nation is believed to be fast developing, and play greater roles in developing the scientific technologies and national economy.
Keywords: Mesurement and test; Instrument and appartus; Manufacure technologies
2009, 35(2): 1-6 收稿日期: 2008-10-8;收到修改稿日期: 2008-12-5
基金项目:
作者简介: 叶声华(1934-),男,湖北沙市人,中国工程院院士,研究方向为测试计量技术与仪器。
参考文献
[1] 国家自然科学基金委员会.机械制造科学[M].北京:科学出版社,1994.
[2] 中国计量测试学会.计量测试在国民经济中的作用[M].北京:计量出版社,1994.
[3] 叶声华,邾继贵.视觉检测技术及应用[J].中国工程科学,1999,1(1):49-52.
[4] Timothy S, Newman. A survey of automated visual inspection[J]. Computer Vision and Image Understanding,1995,61(2):231-262.
[5] Fraser C S. Innovation in automation for vision metrology system[J]. Photogramm Record,1997,15(9):901-911.
[6] Shortis M, Fraser C S. Current trends in close range optical 3D measurement for industrial and engineering applications[J]. Survey Review,1991,31(242):188-200.
[7] Masao N,Akira F,Kenji K, et al. Nanometrology of Si nanostructures embedded in SiO2 using scanning electron microscopy[J]. Japanese Journal of Applied Physics,2003,42(1):318-325.
[8] Albert K, Oren Z, Zvika R, et al. Using monte carlo simulation for accurate critical dimension metrology of super small isolated poly-lines[J]. Scanning,2003,25(6):291-296.
[9] 秦树人.岩石模型:机械系统大型测试仪器库[J].机械工程学报,2007(7):68-74.
[10] Qin S R. Intelligent virtual controls-new concept of virtual inatrument[J]. Proc. of 2nd ISIST,2002(8):75-79.
[11] Sundararajan S, Bhushan B. Development of AFM-based techniques to measure mechanical properties of nanoscale structures[J]. Sens. Actuators A Phys.,2002(101):338-351.
[12] Schubert Soãres. Nanometer edge and surface imaging using optical scatter[J]. Precision Engineering,2003(27):99-102.
[13] Yu Ying,Grant P. Deformation measurement of RF MEMS switches by optical interference[J]. Microelectronics Reliability,2004(44):951-955.
[14] Kujawińska M. Modern optical measurement station for micro-materials and micro-elements studies[J]. Sensors and Actuators A,2002(99):144-153.
[15] 朱目成,周肇飞,张 涛.大尺寸无导轨激光精密测量仪的研究[J].激光杂志,2004,25(3):80-81.
[16] 喻彩丽,吴作伦,周晓辉.超大尺寸三坐标测量方法及误差分析[J].机械制造,2004,42(482):63-65.
[17] Beger H. Digital photogrammetry in industrial application[J]. IAPRS,1995(30):373-378.
[18] Tanaka K. Recent trend of aspheric processing technology[J]. Science of Machine,2002,54(3):11-20.
[19] 费业泰.精度理论若干问题进展与未来[J].中国机械工程,2000,11(3):255-256.
[20] 高思田,王春艳,叶孝佑,等.纳米技术与纳米计量[J].现代计量测试,2000(1):3-12.
[21] 徐 毅,高思田,李 晶.纳米、亚微米标准样板及SPM量值溯源[J].计量学报,2003,24(2):81-84.
