Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
| Русский Русский | English English |
 
Главная
23 | 12 | 2024
2018, 06 June

DOI: 10.14489/td.2018.06.pp.016-022

 

Murashov V. V.
METHODOLOGY OF RESEARCH OF PHYSICAL AND MECHANICAL PROPERTIES AND STRUCTURE OF POLYMERIC COMPOSITE MATERIALS BY METHODS OF TECHNICAL DIAGNOSTICS. Part 1
(pp. 16-22)

Abstract. It is shown that the most actual problem of increase of reliability of products of aviation engineering is the problem of increase of their quality as main indicator of assessment of products of responsible assignment. Examined macro- and microdefects of the structure of polymer composite materials (PCM) and their influence on physical and mechanical properties of materials and factors causing the variation in characteristics of physical and mechanical properties. Describe in detail the methodology of research of physical and mechanical properties and composition of PCM methods of technical diagnostics. The kinetics of accumulation of damages of structure of material is shown at operation of details and designs from PCM and interrelation between different physical and mechanical properties of materials and their structure. It is shown that aging of material is accompanied by accumulation of the microdamages which availability defines deterioration of physical and mechanical properties of materials. Physical the bases of use of longitudinal waves and Lamb's waves are covered at control of designs from PCM and the informativeness of the acoustic characteristics used as parameters of diagnostics. The article describes methods for improving the accuracy of diagnosis of the characteristics of the structure and physical and mechanical properties of materials by increasing the accuracy of measurement of informative diagnostics parameters, and integration of diagnostic parameters.

Keywords: polymer composite materials (PCM), macro- and microdefects of structure, physical and mechanical properties, ultrasonic longitudinal waves, Lamb waves, the informative parameters of the diagnostic, complex diagnostic parameters.

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. Kablov E. N. (2015). Innovation developments of FSUE «All-Russian Scientific Institute of Aviation Materials» of the State Research Center of the Russian Federation on implementation «Strategic directions of development of materials and processing technologies for the period up to 2030». Aviatsionnye materialy i tekhnologii, (1), pp. 3-33. doi: 10.18577/2071-9140-2015-0-1-3-33. [in Russian language]
2. Murashov V. V. (2016). Testing and diagnostics of multilayer structures made of polymer composites by acoustic methods. Moscow: Izdatel'skii dom «Spektr». [in Russian language]
3. Murashov V. V. (2016). Quality control of products from polymeric composite materials by acoustic methods. Kontrol'. Diagnostika, (12), pp. 16-29. doi: 10.14489/ td.2016.12.pp.016-029 [in Russian language]
4. Klyuev V.V. (Ed.), Ermolov I. N., Lange Iu. V. (2006). Nondestructive testing. Handbook. In 8 volumes. Vol. 3. Ultrasonic inspection. 2nd Ed. (revised and complemented). Moscow: Mashinostroenie. [in Russian language]
5. Murashov V. V. (2012). Determination of physico-mechanical characteristics and composition of polymer composite materials by acoustic methods. Aviacionnye materialy i tekhnologii, (S), pp. 465-475. [in Russian language]
6. Murashov V. V., Slyusarev M. V. (2016). Revealing cracks in polymer-composite parts and in multilayered glued constructions by a low-frequency acoustic method. Russian Journal of Nondestructive Testing, 52(6), pp. 324-331.
7. Mishurov K. S., Murashov V. V. (2016). Determination of the composition and density of polymer composite materials in details and constructions by nondestructive methods. Polymer Science. Ser. D, 9(2), pp. 176-180.
8. Murashov V. V. (2009). Nondestructive testing of glued joints. Polymer Science. Ser. D. Glues and Sealing Materials, 2(1), pp. 58-63.
9. Murashov V. V., Rumiantsev A. F. (2007). Flaw detection and diagnostics of PCM by acoustic methods. Aviatsionnye materialy. Izbrannye trudy «VIAM» 1932 – 2007. Jubilee scientific and technical collection dedicated to 75th Anniversary. Moscow: VIAM, pp. 342-347. [in Russian language]
10. Nagem R. J., Seng J. M., Williams J. H. (2000). Residual life predictions of composite aircraft structures via nondestructive testing. Pt 2: Degradation modeling and residual life prediction. Materials Evaluation, 58(11), pp. 1310-1319.
11. Latishenko V. A. (1968). Diagnostics of stiffness and strength of materials. Riga: Zinatne. [in Russian language]
12. Shtraus V. D. (1983). Experimental studies of the informativeness of electrical relaxation characteristics to changes in the physico-mechanical properties of composites. Methods and means of diagnosing the bearing capacity of composite products. (pp. 253-258). Riga: Zinatne. [in Russian language]
13. Zinchenko V. F., Negreeva S. N. (1983). Study of the interrelations between some indicators of the structure and physicomechanical properties of organic and carbon plastics. Methods and means of diagnosing the bearing capacity of composite products. (pp. 158-165). Riga: Zinatne. [in Russian language]
14. Murashov V. V., Mishurov K. S. (2015). Evaluation of the strength characteristics of carbon plastics by the acoustic method. Aviacionnye materialy i tekhnologii, (1), pp. 81- 85. doi: 10.18577/2071-9140-2015-0-1-81-85. [in Russian language]
15. Murashov V. V. (2016). Estimation of microdamages accumulation degree of the PCM structure in parts and constructions by non-destructive methods. Aviacionnye materialy i tekhnologii, (3), pp. 73-81. doi: 10.18577/2071-9140-2016-0-3-73-81. [in Russian language]
16. Karabutov A. A., Murashov V. V., Podymova N. B. (1999). Diagnostics of layered composites using a laser optical-acoustic transducer. Mekhanika kompozitnyh materialov, 35(1), pp. 125-134. [in Russian language]
17. Budenkov G. A., Strizhak V. A., Pryahin A. V. et al. (1998). Impulse method for measuring ultrasound velocity. Defektoskopiya, (9), pp. 3-8. [in Russian language]
18. Truehll R., Ehl'baum Ch., Chik B. (1978). Ultrasonic methods in solid state physics. Moscow: Mir. [in Russian language]
19. Murav'ev V. V. (1988). Errors in measurements with ultrasonic structurometry. Defektoskopiya, (7), pp. 80- 82. [in Russian language]
20. Gunasekera A. M. (2010). Monitoring of impact damage products from PCM. Materials Evaluation, 68(8), pp. 880-887.

 

 

This article  is available in electronic format (PDF).

The cost of a single article is 350 rubles. (including VAT 18%). After you place an order within a few days, you will receive following documents to your specified e-mail: account on payment and receipt to pay in the bank.

After depositing your payment on our bank account we send you file of the article by e-mail.

To order articles please copy the article doi:

10.14489/td.2018.06.pp.016-022

and fill out the  form  

 

 

 
Rambler's Top100 Яндекс цитирования