ANALYSIS OF SPEED OF CHANGING ACOUSTIC EMISSION PARAMETERS BY FRICTION OF SURFACES OF COMPOSITE MATERIALS
DOI:
https://doi.org/10.18372/2306-1472.59.6796Keywords:
acoustic emission, amplitude, composite, energy, material friction, rotation, signalAbstract
We analyzed the results of handling of amplitude parameters of model and real resulting signal of acoustic emission by friction of surfaces, made of composite material. It is shown that at the stage of normal wear and tear of the friction assembly, speed of change of amplitude parameters of acoustic radiation stays permanent. Transition of the friction assembly, which precedes the stage of catastrophic wear and tear, brings to rise of speeds of change of amplitude parameters of acoustic emission resulting signal.
References
Filonenko, S.F.; Kosmach, O.P. Influence of friction surfaces properties of composite materials on acoustic emission. Proceedings of the National Aviation University. 2013. N1. P. 70–77.
Filonenko, S. F.; Kosmach, O.P. Patterns of change in acoustic emission with increasing load on the friction pair of composite material. Proceedings of the National Aviation University. 2013. N 2. Р. 79–89 (in Ukrainian).
Filonenko, S.F.; Kosmach, O.P. Simulation of acoustic emission signals in friction and wear surfaces of composite materials. Proceedings of the CSTU. 2013. N 3. Р. 88–96.
Filonenko, S.F.; Stadnycenko, V.M.; Stahova, A.P. Modelling of acoustic emission signals at friction of materials’ surface layers. Aviation. 2008. Vol. 12, N 3. P. 87–94.
Filonenko, S.F.; Stakhova, А.P.; Kositskaya, T.N. Modeling of the acoustic emission signals for the case of material’s surface layers distraction in the process of friction. Proceedings of the National Aviation University. 2008. N 2. P. 24–28.
Hase, A.; Wada, M.; Mishina, H. Acoustic emission in elementary processes of friction and wear: In-situ observation of friction surface and AT signals. J. of advanced mechanical desing, items and manufacturing. 2009. Vol. 3. N 4. P. 333–344.
Kun, F.; Zapperi, S.; Herrmann, H. J. Damage in fiber bundle models. Eur. Phys. J. B. 2000. Vol. 17, N 2. P. 269–279.
Liao, C.; Suo, S.; Wang, Y.; Huang, W.; Liu, Y. Study on stick-slip friction of reciprocating o-ring seals using acoustic emission techniques. Tribology transactions. 2012. Vol. 55, N 1. Р. 43–51.
Mechefske, C.K.; Sun, G.; Sheasby, J. Using acoustic emission to monitor sliding wear. Insight. 2002. Vol. 44, N 8. P. 1–8.
Rubtsov, V.E.; Kolubaev, A.V.; Popov, V.L. The use of acoustic emission analysis for the wear in sliding friction. Letters to ZHTF. 2013. Vol. 4.
P. 79–86.
Filonenko, S. F.; Kosmach, O.P. Patterns of change in acoustic emission with increasing load on the friction pair of composite material. Proceedings of the National Aviation University. 2013. N 2. Р. 79–89 (in Ukrainian).
Filonenko, S.F.; Kosmach, O.P. Simulation of acoustic emission signals in friction and wear surfaces of composite materials. Proceedings of the CSTU. 2013. N 3. Р. 88–96.
Filonenko, S.F.; Stadnycenko, V.M.; Stahova, A.P. Modelling of acoustic emission signals at friction of materials’ surface layers. Aviation. 2008. Vol. 12, N 3. P. 87–94.
Filonenko, S.F.; Stakhova, А.P.; Kositskaya, T.N. Modeling of the acoustic emission signals for the case of material’s surface layers distraction in the process of friction. Proceedings of the National Aviation University. 2008. N 2. P. 24–28.
Hase, A.; Wada, M.; Mishina, H. Acoustic emission in elementary processes of friction and wear: In-situ observation of friction surface and AT signals. J. of advanced mechanical desing, items and manufacturing. 2009. Vol. 3. N 4. P. 333–344.
Kun, F.; Zapperi, S.; Herrmann, H. J. Damage in fiber bundle models. Eur. Phys. J. B. 2000. Vol. 17, N 2. P. 269–279.
Liao, C.; Suo, S.; Wang, Y.; Huang, W.; Liu, Y. Study on stick-slip friction of reciprocating o-ring seals using acoustic emission techniques. Tribology transactions. 2012. Vol. 55, N 1. Р. 43–51.
Mechefske, C.K.; Sun, G.; Sheasby, J. Using acoustic emission to monitor sliding wear. Insight. 2002. Vol. 44, N 8. P. 1–8.
Rubtsov, V.E.; Kolubaev, A.V.; Popov, V.L. The use of acoustic emission analysis for the wear in sliding friction. Letters to ZHTF. 2013. Vol. 4.
P. 79–86.
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Published
04-07-2014
How to Cite
Filonenko, S., Kositskaia, T., & Nimchenko, T. (2014). ANALYSIS OF SPEED OF CHANGING ACOUSTIC EMISSION PARAMETERS BY FRICTION OF SURFACES OF COMPOSITE MATERIALS. Proceedings of National Aviation University, 59(2), 73–81. https://doi.org/10.18372/2306-1472.59.6796
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Section
MODERN AVIATION AND SPACE TEHNOLOGY
