文章对过去50年笔者所涉及的一些声发射项目做了回顾。笔者的声发射生涯是从检验玻璃环氧树脂圆柱形压力容器的剩余强度开始的，然后很快地延伸到了其它的很多材料、制品和结构中去。笔者在文中会介绍尽量多的信息，诸如：非金属和金属压力容器、影响声发射的因素、变型模式的识别、降噪技术、地上储罐泄漏探测、结合AE与UT、木材颗粒板的声-超声检验、飞行中飞机结构的监测以及葡萄科植物的缺水探测等。

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作者单位

Allen T Green:Acoustic Technology Group, Inc., 美国

引用该论文:

Allen T. Green.Fifty Years in the Technology of Acoustic Emission(1961-2011)[J].Nondestructive Testing,2012,34(4):50～59
Allen T Green.声发射技术五十年(1961-2011)[J].无损检测,2012,34(4):50～59

被引情况:

【1】

吴旭景,杜斌,叶陈, "基于EMD和小波分解的管道泄漏声发射源定位",无损检测 37, 60-63(2015)
参考文献

【1】

Smiley, R Cmdr. Personal communication［R］. US Navy, Sacramento, CA,1963.

【2】

Green A T, Lockman C S, Haines H K. Acoustical analysis of filament-wound polaris chambers［R］. Report 0672-01F. Aerojet-General Corp., Sacramento, CA. ［NTIS: AD-418-330］,1963.

【3】

Jensen E C, Spanheimer H, De Herrera A J. Prediction of composite pressure vessel performance by application of the kaiser effect in acoustic emissions［R］. Hercules Incorporated, Systems Division, Magna, UT and Thiokol Corporation, Wasatch Division, Brigham City, UT,1975.

【4】

Green A T, Hartbower C E. Development of a nondestructive testing technique to determine flaw criticality［R］. Advanced Research Projects Agency, F33615-68-C-1705, Aerojet-General Corp., Sacramento, CA,1970.

【5】

Aerojet. Stress-wave analysis of LEM ascent tanks during proof and burst tests［R］. Special Report 1-4081-01-5.4-001, Aerojet-General Corp., Downey, CA,1966.

【6】

Green A T. Stress-wave emission generated during the hydrostatic compression testing of glass spheres［R］. Office of Naval Research, N00014-67-C-0333, Aerojet-General Corporation, Sacramento, CA,1969.

【7】

Steele R K, Green A T, Morais C F. Results of SWAT application to hydrotest of R-3 reactor［R］. ESSO, Pasadena, TX. Aerojet-General Corporation, Sacramento, CA,1968.

【8】

Srawley J E, Esgar J B. Investigation of hydrotest failure of thiokol chemical corporation 260-inch-diameter SL-1 motor case［R］. NASA TM-X1194, Lewis Research Center, OH,1966.

【9】

Steele R K, Green A T, Lockman C S. Method and apparatus for nondestructive testing of pressure vessels［P］. US Patent 3,545,262,1970.

【10】

Dunegan H L, Green A T. Factors affecting acoustic emission response from materials［J］. Materials Research and Standards, MTRSA,1972,11(3):21-24.

【11】

Clark J P, Witek R, Green A T, et al. Acoustic emission monitoring and ultrasonic examination correlation on a reactor pressure vessel: final report［R］. Acoustic Emission Technology Corp. and General Electric Corp., Electric Power Research Institute, NP-921, Research Project 448,1978.

【12】

Vary A, Green A T. Ultrasonic instrument for evaluation of composite materials［R］. NASA, Lewis Research Center, OH; Acoustic Emission Technology, Sacramento, CA,1981.

【13】

Rodgers J M, Green A T, Borup S W. Acousto-ultrasonic measurement of internal bond strength in composite wood products［R］. Material Evaluation. American Society for Nondestructive Testing, Columbus, OH,1991.

【14】

Green A T, Lauben R W. Nondestructive examination of above ground storage tanks for leak detection［R］. Hartford Steam Boiler Inspection Technologies, Sacramento, CA; Hartford Steam Boiler Inspection & Insurance Co., Hartford, CT,1989.

【15】

Green A T, Calkin H W, Leaird J D. Functional impairment of water conduction in plants in response to drought as correlated with cavitation signals: final report［R］. Department of Energy Contract No. DE-AC03-86ER80415; Small Business Innovation Research Program Phase I,1987.

【16】

Carlyle J, Green A T. NDE of aging aircraft using acoustic emission-where is it today［R］. ASNT Spring Conference, American Society for Nondestructive Testing, Anaheim, CA,1998.