Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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22 | 12 | 2024
2022, 08 August

DOI: 10.14489/td.2022.08.pp.036-043

Shlyakhtenkov S. P., Gulyev M. A., Vyplaven V. S., Popkov A. A., Bekher S. A., Kurbatov A. N., Bobrov A. L.
POSSIBILITY OF IDENTIFYING DEFECTS IN MASSIVE CAST STRUCTURES BY NON-DESTRUCTIVE TESTING METHODS
(pp. 36-43)

Abstract. In the context of improving methods and means of non-destructive testing (NDT), along with increasing in formativeness, complex technical problems arise. For example, when examining structural elements with a service life of more than 20 – 30 years, modern NC tools detect defects that have not been rejected by the manufacturer. Assessment of the impact of such defects on the operability of the structure requires a comprehensive study using NC and strain gauge. The purpose of the work is to evaluate the parameters of defects in a cast part of a hydraulic stamping press with a service life of more than 60 years in order to make a decision on the possibility of its further operation. The defect was investigated using magnetic powder, eddy current and ultrasonic control methods. By means of strain gauges, mechanical stresses are measured directly during operation. The indicator pattern of the magnetic particle inspection defect has signs uncharacteristic for fatigue defects: branching, intermittent and broken (not smooth) character. To quantify the degree of smoothness of the indicator pattern, it is proposed to use a fractal dimension, which for the defect under study was 1.07. The estimated depth of the defect detected by the eddy current method was from 4 to 6 mm, by ultrasound – from 8 to 18 mm. The presence of an echo signal by a direct converter indicates the volumetric nature of the defect. After mechanical removal of the surface layer with a thickness of 2 mm in some areas, the width of the defect increased to 2 mm, and the depth to – 20 mm. On the inner side surface of the defect, a dense, dark scale characteristic of high temperatures is visually determined.The defect is classified as a casting shell with a depth of 20 mm. No traces of fatigue failure were found. Compressive mechanical stresses with an amplitude of no more than 41 MPa amounted to less than 20 % of the fatigue endurance limit of 35L steel. During the year, the average number of working cycles is 20 thousand, repeated examination of the press defect is recommended in 5 – 10 years (100 – 200 thousand cycles).

Keywords: casting defect, fatigue crack, ultrasonic testing, eddy current testing, magnetic testing, strain measurement, degree of defect hazard.

S. P. Shlyakhtenkov, M. A. Gulyev, V. S. Vyplaven, A. A. Popkov, S. A. Bekher, A. N. Kurbatov, A. L. Bobrov (Siberian transport university, Novosibirsk, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.  

1. Lepihin A. M., Morozov E. M., Mahutov N. A. et al. (2022). Possibilities for assessing the probability of destruction and the permissible size of defects in structural elements according to the criteria of fracture mechanics. Zavodskaya laboratoriya. Diagnostika materialov, 88(3), pp. 41 – 50. [in Russian language]
2. Cherepanov A. P., Lyapustin P. K. (2019). Patterns of decreasing the resource of unique machines. Sovremennye tekhnologii. Sistemniy analiz. Modelirovanie, 63(3), pp. 37 – 45. [in Russian language]
3. Watson J. M., Liang C. W., Sexton J., Missous M. (2021). Development and optimisation of low-power magnetic flux leakage inspection parameters for mild steel welds. Insight. Non-Destructive Testing and Condition Monitoring, Vol. 63, (2), pp. 75 – 81(7).
4. Wu J., Wu W., Li E. et al. (2021). Magnetic Flux Leakage Course of Inner Defects and Its Detectable Depth. Chinese Journal of Mechanical Engineering, Vol. 34, (1).
5. Dymkin G. Y., Kurkov A. V., Smorodinskii Y. G., et al. (2019). On the Sensitivity of Eddy Current Testing of Parts of Railway Rolling Stock. Russian Journal of Nondestructive Testing, Vol. 55, pp. 610 – 616.
6. Romero-Arismendi N. O., Pérez-Benítez J. A., Ramírez-Pacheco E., Espina-Hernández J. H. (2020). Design method for a GMR-based eddy current sensor with optimal sensitivity. Sensors and Actuators. A: Physical, Vol. 314.
7. Park J. W., Lee T. G., Back I. C. et al. (2021). Rail Surface Defect Detection and Analysis Using Multi-Channel Eddy Current Method Based Algorithm for Defect Evaluation. Journal of Nondestructive Evaluation, Vol. 40, 83(3).
8. Murav'ev V. V., Gushchina L. V., Kazantsev S. (2019). Evaluation of the accumulated damage of the necks of the axles of the wheel pairs of cars by the ultrasonic method using Rayleigh and bow waves. Defektoskopiya, (10), pp. 14 – 23. [in Russian language]
9. Benammar Abdessalem, Chibane Farid. (2020). Resolution Improvement of Ultrasonic Signals Using Sparse Deconvolution and Variational Mode Decomposition Algorithms. Russian Journal of Nondestructive Testing, Vol. 56, pp. 479 – 489.
10. Goncharov N. G., Kolesnikov O. I., Yushin A. A. et al. (2016). Investigation of defects in cast housing parts of pumps and development of technology for their repair. Nauka i tekhnologii truboprovodnogo transporta nefti i nefteproduktov, 25(5), pp. 84 – 89. [in Russian language]
11. Murav'ev V. V., Stepanova L. N., Kareev A. E. (2003). Assessing the degree of danger of fatigue cracks during acoustic emission testing of cast parts of a freight car bogie. Defektoskopiya, (1), pp. 63 – 68. [in Russian language]
12. Stepanova L. N., Lebedev E. Yu., Kabanov S. I. et al. (2001). Microprocessor multichannel tensometric system for strength testing of structures. Defektoskopiya, (4), pp. 82 – 89. [in Russian language]
13. Sorokin V. G. (Ed.), Volosnikova A. V., Vyatkin S. A. et al. (1989). Grader of steels and alloys. Moscow: Mashinostroenie. [in Russian language]

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