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
2018, 07 July

DOI: 10.14489/td.2018.07.pp.020-029

 

Murashov V. V.
METHODOLOGY OF RESEARCH OF PHYSICAL AND MECHANICAL PROPERTIES AND STRUCTURE OF POLYMERIC COMPOSITE MATERIALS BY METHODS OF TECHNICAL DIAGNOSTICS. Part 2
(pp. 20-29)

Abstract. Physical the bases of ultrasonic methods of reflection and through transmission, polymeric composite materials (PCM) applied to diagnostics are covered. It is offered to evaluate extent of accumulation of microdamages to PCM according to their strength characteristics determined by nondestructive method on complex parameter, including values of velocity of propagation of pulse of ultrasonic oscillations (USO) in the plane of product and frequency rate of the main spectrum component of impulse of USO which has passed product on thickness in the direct and return directions. It is specified that for diagnostics of materials it is advisable to excite a longitudinal wave and the wave similar to symmetric wave of zero order in product. Expressions for definition on the measured speeds of longitudinal and transverse waves of modules the Ship's boy are given, modules of shift, Puasson's factors in any direction and the expressions describing anisotropy of strength properties are offered. Possibilities of laser and acoustic way of ultrasonic control are shown at PCM diagnostics, schemes of optiko-acoustic probes for implementation of broadband acoustic spectroscopy are provided and experimentally certain precision characteristics of the PCM physical and mechanical properties are defined. The new way of calculation of criterion of SWF is provided at PCM diagnostics by acoustic-ultrasonic method.

Keywords: polymer composite materials (PCM), acoustic characteristics of materials, ultrasonic longitudinal waves, lamb waves, the informative parameters of the diagnostic.

 

V. V. Murashov (FSUE “VIAM” SSC of the Russian Federation, Moscow, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.  

 

 

1. Murashov V. V. (2014). Determination of elastic and strength properties of polymer composite materials using acoustic complex method. Deformaciya i razrushenie materialov, (11), pp. 39-45. [in Russian language]
2. Murashov V. V. (2016). Determination of strength characteristics of polymeric composite materials using ultrasonic method. Zavodskaya laboratoriya. Diagnostika materialov, 82(10), pp. 47-55. [in Russian language]
3. Viktorov I. A. (1966). The physical basis for the use of ultrasonic Rayleigh and Lamb waves in engineering. Moscow: Nauka. [in Russian language]
4. Ermolov I. N., Vopilkin A. Kh., Badalian V. G. (2000). Calculations in ultrasonic testing: quick reference. Moscow: NPTs NK «EKhO». [in Russian language]
5. Rose J. L., Soley L. E. (2000). Ultrasonic guided waves for anomaly detection in aircraft components. Materials Evaluation, pp. 1080-1086.
6. Ashkenazi E. K. (1969). Anisotropy of engineering materials. (pp. 37-39). Leningrad: Mashinostroenie. [in Russian language]
7. Murashov V. V., Rumyancev A. F. (2005). Introduction of laser technologies in diagnostics of physical and mechanical properties of polymeric composite materials. Proceedings of the XVII Russian scientific and practical conference with international participation. Ekaterinburg: IMASH UrO RAN. [in Russian language]
8. Murashov V. V. (2016). Determination of the strength characteristics of carbon plastics in monolithic and integral structures using laser-acoustic method of ultrasonic testing. Materialovedenie, (11), pp. 9-16. [in Russian language]
9. Murashov V. (2017). Non-destructive testing and evaluation designs by the acoustic methods. Saarbrücken: LAMBERT Academic Publishing.
11. Kablov E. N., Guniaev G. M., Karabutov A. A. et al. (2003). Method for determining the physical and mechanical characteristics of PCM and device for its realization. Ru Patent No. 2214590. Russian Federation. [in Russian language]
12. Karabutov A. A., Pelivanov I. M., Podymova N. B., Reznikov A. V. (2002). Using ND: YAG-laser with diode pumping in non-destructive ultrasonic testing of graphiteepoxy composites. Kontrol'. Diagnostika, (11), pp. 24-29. [in Russian language]
13. Murashov V. V., Mishurov K. S. (2015). Determination of the porosity of carbon plastics in aircraft structures using ultrasonic method. Aviacionnye materialy i tekhnologii, (2), pp. 88-92. doi: 10.18577/2071-9140-2015-0-2-88-92. [in Russian language]
14. Generalov A. S., Murashov V. V., Dalin M. A., Boychuk A. S. (2012). Diagnostics of polymer composites by ultrasonic reverberation-through method. Aviatsionnye materialy i tekhnologii, (1), pp. 42-47. [in Russian language]
15. Generalov A. S., Murashov V. V., Dalin M. A. et al. (2013). Estimation of the effectiveness of the application of the methods for calculating the SWF criterion for determining the strength of structural elements made of carbon fiber using reverberation-through method. Promyshlennye ASU i kontrollery, (1), pp. 39-43. [in Russian language]
16. Generalov A. S., Murashov V. V., Kosarina E. I., Boychuk A. S. (2014). Construction and analysis of correlation relationships for the evaluation of the strength properties of carbon plastics using reverberation-through method. Aviatsionnye materialy i tekhnologii, (1), pp. 58-63. doi: 10.18577/2071-9140-2014-0-1-58-63. [in Russian language]

 

 

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