10.14489/td.2015.08.pp.031-038

2015, 08 August

DOI: 10.14489/td.2015.08.pp.031-038

Vengrinovich V.L., Vintov D.A.
BARKHAUSEN NOISE SPATIAL DISTRIBUTION OF IN THE AREA OF STRESS CONCENTRATION DURING FFATIGUE TEST OF STEEL 10HSND
(pp. 31-38)

Abstract. The problem of material evolution and microcracks detection during fatigue degradation at early stages of fatigue is one of the key problems of non-destructive testing of fatigue. The article presents a short description of nondestructive testing methods for fatigue evaluations. The experimental study of steel 10HSND fatigue degradation with Barkhausen effect. Describes Behavior of Barkhausen noise in connection to a ferromagnetic material microstructure under fatigue tests is described. Some clear mechanisms explaining the interaction of fatigue and Barkhausen noise changes are also discussed.

Keywords: Barkhausen noise, the area of stress concentration, fatigue test, bending, fatigue degradation.

+ - About the Authors Click to collapse

V. L. Vengrinovich
Institute of Applied Physics of the National Academy of Sciences of Belarus, Minsk, Belarus. E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.

D. A. Vintov
Tomsk National Research State University, Tomsk, Russia

+ - References Click to collapse

1. Novikov I. I., Rozin K. M. (1990). Crystallography and crystal defects. Moscow: Metallurgia.
2. Khertsberg R. V. (1989). Deformation and fracture mechanics of structural materials. Moscow: Metallurgia.
3. Terent'ev V. F. (2002). Fatigue strength of metals and alloys. Moscow: Intermet Inzhiniring.
4. Ivanova V. S. (1963). Fatigue failure of metals. Moscow: Metallurgizdat.
5. Akulov N. S., Franiuk V. A. (1959). Changing of several physical properties of the metal in the process of fatigue. Doklady Akademii nauk BSSR, 3(3), pp. 87-90.
6. Take Н., Nakasa К., Okamoto A. (1971). J. Jap. Inst. Меtals., 35(6), pp. 599-603.
7. Markevich K. V. (1967). Evaluation of structural changes in the surface layers of the material under cyclic loading. Defektoskopiia, (2), pp. 55-60.
8. Polak J., Czechos I. (1923). J. Phys., B23(3), pp. 322-330.
9. Botvina L. R. (2008). Destruction: kinetics, mecha-nisms, general laws. Moscow: Nauka.
10. Kliuev V. V. (Ed.). (2004). Nondestructive testing. Handbook. In 8 volumes. Volume 3. Ultrasonic testing. Mos-cow: Mashinostroenie.
11. Rakshin, A. F., Sviridov O. T. (1982). Determination of the degree of damage of structural elements. Defektoskopiia, (3), pp. 4-8.
12. Maslov K., Kinra V. K. (2000). Scanning laser vibrometry for Lamb wave evaluation of composite tubu-lar. Nondestructive Testing and Evaluation, 15(6), pp. 395-409.
13. Fassbender S. U., Karpen W., Sourkov A. et al. (2000). NDE of fatigue on metals thermography, acoustic microscopy and positron annihilation method. 15th World Conference on Non-Destructive Testing. Rome (Italy), (on CD).
14. Ivanov V. I., Kuranov V. N., Riabov A. N., Eremin A. S. (1980). Acoustic emission in the process of growth of fatigue cracks in pressure vessels. Defektoskopiia, (1), pp. 35-39.
15. Kliuev V. V. Nondestructive testing. Handbook. In 8 volumes. Volume 5. Moscow: Mashinostroenie.
16. Filinov V. V., Arakelov P. G. (2013). Designing of new informative parameters at control of a tension of ferromagnetic metals on basis of registration of magnetic noise of reversal magnetization. Kontrol'. Diagnostika, (5), pp. 28-31.
17. Schreiber, J., Cikalova U., Vertyagina Ye. (2008). Use of the fractal nature of spatial and temporal response behavior for materials damage characterization. Proceedings of the Sixth Intern. Conf. on Low Cycle Fatigue Conference. Berlin, 2008, pp. 655 – 660.
18. Vengrinovich V. L., Bus'ko V. N., Vintov D. A. (2012). Device for fatigue testing of samples. By Patent No. BY9200U. Belarus.
19. Vengrinovich V. L., Bus'ko V. N. et al. (2014). Re-search of the patterns of prediction of the residual life of complex technical objects on the basis of probabilistic models and development of new means of diagnosing and monitoring. RnD report: conclusion. Minsk.

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