Static versus low frequency dynamic elastic modulus measurement of thin films
Автор: Mfoumou E., Hedberg C., Kao-walter S.
Журнал: Техническая акустика @ejta
Статья в выпуске: т.6, 2006 года.
Бесплатный доступ
A new experimental technique for evaluating Young's (or elastic) modulus of a vibrating thin film from a dynamic measurement is presented. The technique utilizes bending resonance from a remote acoustic excitation to determine Young's modulus. Equations relating the natural frequencies to the mechanical properties are obtained, and Young's modulus is subsequently determined. Young's modulus values from dynamic test are compared with those (static) obtained by a standard tensile test, and consistent results are obtained. The proposed technique is relatively simple and could be used to determine Young's modulus of a wide variety of sheet materials initially having no bending stiffness. It can also be used for determining other mechanical properties, such as compliance methods in connections with fracture mechanical testing, fatigue and damage measurements. This work emphasizes the feasibility of a damage assessment of components in-service by evaluating changes in the material characteristics.
Короткий адрес: https://sciup.org/14316257
IDR: 14316257
Список литературы Static versus low frequency dynamic elastic modulus measurement of thin films
- Kao-Walter, S. On the Fracture of Thin Laminates. Doctoral Dissertation Series N°2004:07, ISSN 1650-2159, ISBN 91-7295-048-X, Blekinge Institute of Technology, Sweden.
- ASTM D-882-91. Standard Test Method for Tensile Properties of Thin Plastic Sheeting. American Society for Testing and Materials, Philadelphia, Pa. 1991.
- Inman, D. J. Engineering Vibration. Prentice-Hall Inc. New-York, 1994.
- Bai, S. L. Indentation Properties of the Filler and Matrix in Polymer Composites. Journal of Materials Science Letters 21, 2002, pp. 85-88.
- Cloud, G. L. Optical Methods of Engineering Analysis. Cambridge University Press, London, 1990.
- Hsin-Chang Tsai, Weileun Fang. Determining the Poisson's ratio of thin film materials using resonant method. Sensor and Actuators A: Physical, 103, 377-383 (2003).
- ASTM C 1548-02, Standard Test Method for Dynamic Young's Modulus, Shear Modulus; and Poisson's Ratio of Refractory Materials by Impulse Excitation of Vibration. ASTM International.
- B. T. Comella, M. R. Scanlon. The Determination of the Elastic Modulus of a Micro Cantilever Beam Using Atomic Force Microscopy. J. Mater. Sci., 35, 3, 567-572 (2000).
- K. Hogmoen, O. J. Lokberg, Detection and measurement of small vibration using electronic speckle pattern interferometry. Applied Optics, 16, 1869-1875 (1977).
- Xin Kang, C. J. Tay, C. Quan. Evaluation of Young's modulus of a vibrating beam by optical method. Opt. Eng., 42, 10, 3053-3058 (2003).
- Kisoo K.; Choi M.; Kim K. Evaluation of the Young's modulus by resonance frequency and Euler-Bernouilli Equation. Proceedings of the Thirteenth International Congress on Sound and Vibration (ICSV13), July 2-6, 2006, Vienna, Austria, Eds.: Eberhardsteiner, J. et al. Publisher: Vienna University of Technology, Austria, ISBN: 3-9501554-5-7.
- Landau L. D., Lifshitz E. M. Theory of Elasticity. 3rd Edition, Pergamon,1979.
- Mfoumou E., Hedberg C., Koa-Walter S. Vibration-Based Damage Detection and Evaluation of Sheet Material using a Remote Acoustic Excitation. In print for journal publication, Acoustical Physics, 2006.
- F. Wilson, A. E. Lord. Young's Modulus Determination Via Simple, Inexpensive static and Dynamic Measurements. American Journal of Physics, Vol. 41, Issue N°.1, pp 653-656 (1973).
- T. Цztьrk, O. Kroggel, and P. Grьbl. Propagation of Ultrasound in Concrete -Spatial Distribution and Development of the Young's Modulus. BB 85-CD International Symposium Non-Destructive Tesing in Civil engineering. Berlin, September 16-19, 2003.
- Casper O., Fabricius Ida L., Krogsboll A., Prasad A. Static and Dynamic Young's Modulus for Lower Cretaceous Chalk. A Low Frequency Scenario. AAPG International Conference: October 24-27, 2004; Cancun, Mexico.
- Fracn Tips -NSI Technologies, Tulsa/Houston, 1-918-496-2071, www.nsitech.com
- Van'kov Yu. V., Kazakov R. B., Yakovelva E. R. Natural Frequencies as Diagnostic Criteria for Flaw Detection. Electronic Journal "Technical Acoustic'', http://www.ejta.org, 2003, 5.
