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Abstrakty
A discernible increase in importance of the methods used to evaluate and to control industrial processes has been observed over recent years. More and more frequently, companies utilize advanced methods of non-destructive testing to be competitive on the market and to provide high quality products. Thus, constant qualities of each single product are guaranteed and company's reputation is strengthened. This paper supplements various investigations and potential applications of ultrasonic testing to analyze imperfections in adhesive joints in practice. The findings should extend a relatively scarce knowledge on potential use of ultrasounds to determine the types and sizes of defects in adhesive joints.
Czasopismo
Rocznik
Tom
Strony
661--670
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
autor
- Wroclaw University of Technology, Faculty of Mechanical Engineering, Lukasiewicza 5, 50-371 Wroclaw, Poland
autor
- Wroclaw University of Technology, Faculty of Mechanical Engineering, Lukasiewicza 5, 50-371 Wroclaw, Poland
autor
- Institute for Diagnostic Imaging Research, University of Windsor, Ontario N9B 3P4, Canada
Bibliografia
- [1] L. Goglio, M. Rossetto, Ultrasonic testing of adhesive bonds of thin metal sheets, NDT & E International 32 (6) (1999) 323–331.
- [2] J. Holtmannspötter, J.V. Czarnecki, H.-J. Gudladt, The use of power ultrasound energy to support interface formation for structural adhesive bonding, International Journal of Adhesion and Adhesives 30 (3) (2010) 130–138.
- [3] K. Heller, L.J. Jacobs, Characterization of adhesive bond properties using Lamb waves, NDT & E International 33 (8) (2000) 555–563.
- [4] S.A. Titov, R.G. Maev, A.N. Bogachenkov, Pulse-echo NDT of adhesively bonded joints in automotive assemblies, Ultrasonics 48 (6–7) (2008) 537–546.
- [5] S.K. Chakrapani, V. Dayal, R. Krafka, A. Eldal, Ultrasonic testing of adhesive bonds of thick composites with applications to wind turbine blades, in: Review of Progress in Quantitative Nondestructive Evaluation Proc. AIP Conf., 2012, 1284–1290.
- [6] R.G. Maev, G.B. Chapman, J. Sadler, Ultrasonic pulse-echo NDE of adhesive bonds in sheet-metal assemblies, in: IEEE Proc. Ultrasonics Symposium, 2006, 906–909.
- [7] E. Maeva, I. Severina, S. Bondarenko, Acoustical methods for the investigation of adhesively bonded structures: a review, Canadian Journal of Physics 82 (12) (2004) 981–990.
- [8] A.K. Moidu, A.N. Sinclair, J.K. Spelt, Nondestructive characterization of adhesive joint durability using ultrasonic reflection measurements, Research in Nondestructive Evaluation 11 (2) (1999) 81–95.
- [9] M. Rothenfusser, M. Mayr, J. Baumann, Acoustic nonlinearities in adhesive joints, Ultrasonics 38 (1–8) (2000) 322–326.
- [10] Z.Ch. Li, J. Sadanand, D. Hayward, R. Gilmore, R.A. Pethrick, High frequency electrical measurements of adhesive bonded structures-an investigation of model parallel plate waveguide structures, NDT & E International 30 (3) (1997) 151–161.
- [11] S. Hirsekorn, Nonlinear transfer of ultrasound by adhesive joints—a theoretical description, Ultrasonics 39 (1) (2001) 57–60.
- [12] E. Talarczyk, The Basics of Ultrasonic Technique, Wroclaw University of Technology Publishing, Wroclaw, 1990 (in polish).
- [13] J. Blitz, G. Simpson, Ultrasonic Method of Non-destructive Testing, Chapman and Hall, Cambridge, 1996.
- [14] A. Lewinska-Romicka, Non-destructive Testing. The Basics of Defectoscopy, WNT, Warszawa, 2001 (in polish).
- [15] Huntsman Advanced Materials GmbH., Agomet F330, Araldite Structural Adhesives, Publications Nr. A536d D, 2004.
- [16] Selena. High Temperature Silicon Tytan Professional, Technological Card, TDS_US_042, 2007.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a836f59b-6b15-46d4-a6ab-a6a6071fefee