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Warianty tytułu
Języki publikacji
Abstrakty
The most important peculiarities of the acoustic emission under fatigue loading are reviewed. Dependences of the AE signals and parameters of the growing fatigue crack on the basis of an existing literature source review are established. An essential role of the correlation for determining the crack growth rate in the relation between the AE parameters and crack parameters are shown. An energy approach for determination of cycle quantities till the initiation of a crack is proposed.
Czasopismo
Rocznik
Tom
Strony
95--98
Opis fizyczny
Bibliogr. 24 poz.
Twórcy
Bibliografia
- 1. Andrejkiv О.E., Lischyncka М.V (2000), Zalyshkova dovgovihnist elementiv, neodnoridnyh za mehanichnymy harakterystykamy, Fiz.-him. mehanika mater, No. 6, 39 – 44.
- 2. Andrejkiv О.E., Lischyncka М.V. (1999), Rivnjanja rostu vtomnyh trishynh u neodnoridnyh plastynah, Fiz.-him. mehanika mate, No. 3, 53 – 58.
- 3. Andrejkiv О.E., Rudavsky D.V. (2004), Rozrahunkova model zarodzhenja vtomnyh trishchyn bilja navodnenogo vyrizu, Fiz.-him. mehanika mater, No. 5, 63 – 65.
- 4. Andrejkiv О.E., Кіt М. B. (2006), Vyznachenia periodu rostu trishchyny pry ih dvochastotnomu navantazheni, Mashynoznavstvo, No. 2, 3 – 7.
- 5. Bezimjany U. H., Halanenko D. V. (2007), Akusto-emisionny control v procese bysokochastotnyh ispytanij, Konsonans, Kiev, http://www.hydromech.kiev.ua/rus/WWW-CONS/cons2007r.html
- 6. Drobot U.B., Lazarev А.М. (1987), Nerazrushajushiy kontrol ustalostnyh treshin akustiko-emisionnym metodom, Izd-vo standartov, 128.
- 7. Gerberich W. W., Hartbower C. (1965), Characterization of Fatigue-Crack Growth by Stress-Wave Emission, AerojetGeneral Corporation, Sacramento, California.
- 8. Gerberich W. W., Hartbower C. E. (1966), Feasibility Study for Measuring Fatigue-Crack Growth Rate in Welded HY-80 Steel Using Stress-Wave Emission, Final Report of Contact N600 (167) – Sacramento, California.
- 9. Harris D. O. (1972), Detection of Fatigue Crack Growth in a Sling Assembly by Use of Acoustic Emission Monitoring of a Periodic Proof Test, Technical Report DC-72-3 (addition 2), Dunegan Corporation, Livermore, California.
- 10. Harris D. O., Dunegan H.L. (1974), Continuous Monitoring of Fatigue Crack Growth by Acoustic Emission Techniques, Exper. Mech. 17, 71–81.
- 11. Hreshnikov V.А., Drobot U.B. (1976), Akusticheskaja emisia, Izd-vo standartov, 272.
- 12. Lindley T.C., Palmer J.C., Richards C.E. (1978), Acoustic emission monitoring of fatigue crack growth, Mater. Sci. Eng., 32, No. 1, 1–15.
- 13. Mitchell J.R., Egle D. M. (1977), Acoustic emission monitoring of Fatigue Crack Propagation, Summary of paper: ASNT Spring Conference, Phoenix, Arizona.
- 14. Mitchell J.R., Egle D. M., Appl F. J. (1972), Detecting Fatigue Cracks with Acoustic Emission, University of Oklahoma, school of Aerospace, Mechanical and Nuclear Engineering, Norman, Oklahoma.
- 15. Morton T.M., Smith S., Harrington R.M. (1974), Effect of loading variables on the acoustic emission of Fatigue-Crack growth, Exper. Stress Analysis, 31, No. 1, 208–213.
- 16. Nagornyh S.N., Sarafanov H. F. (1990), Izluchenie АЕrasprostranjajushejsa treshinoj pri ustalosti, Nauchanotehnicheskaja konferencia “Nerazrushajushije metody i svoistva kontrolja”, Sverdlovsk, No. 1, 161 –162.
- 17. Pavelko V., Ozolinsh E. (2002), Detection of Fatigue Crack by method of an Acoustic Emission, Riga, http://www.tsi.lv/
- 18. Penkin А.H., Terentev V.F. (2006), Akustiko-emisionyymetod kontrolja procesov plasticheskoj deformacii i razrushenia metalicheskih materialov, ZAO SDS, Moskva, http://www.sds.ru/method.html
- 19. Pollock A.A. (1989) Metals handbook, – ASM International, 17, 278–294.
- 20. Shata М., Terlecka Z.О. (1999), Energetychny pidhid u mehanici vtomnogo poshyrenia mikrotrishyny, Mehanika ruinuvania I micnist konstrukci, Т 2, Lviv: Kamenjar. 141 – 148.
- 21. Skalsky V.R., Koval P.М. (2005), Akustychna emisia pid chas rujnuvannja matarialiv, vyrobiv і konstrukcij, Metodolohichni aspekty vidboru ta obrobky informacii, Lviv: Spolom, – 396.
- 22. Shyrjajev A.M., KamyshovА.А. (2002), Akusticheskaja emissia pri roste treshchin v staliah, Shestaja nauchnaja konferencia po radiofizike, Nizhnij Novgorod, http://www.rf.unn.ru/rus/sci/books/acoust02/index.html
- 23. Tensi H.M. (2004), The Kaiser effect and its Scientific Background, 26thEuropean Conference on Acoustic Emission Testing, Berlin, http://www.ndt.net/article/ewgae2004 /html/htmltxt/l00tensi.htm
- 24. Terlecka Z.О., Кit М. B. (2004), Zastosuvania energetychnogo pidhodu do ocinky zalyshkovoi dovgovichnosti tonkostinnyh elementiv z poverhnevymy trishchynamy, Mashynoznavstvo, No. 1, 17 – 19.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPB2-0048-0016