Effect of resonant frequencies thermostressed condition and bearing capacity of bimetallic cylinder by electromagnetic action mode with pulse modulating signal

Abstract

Numerical analysis of thermostressed state, load-carrying ability and properties of contact joint of hollow bimetallic cylinder with plane-parallel boundaries under electromagnetic action in the mode with pulse modulated signal depending on the amplitude and frequency characteristics of such action by the conditions of resonant frequencies of the electromagnetic field.

1. Musii, R. S., Melny,k N. B. (2012). Termonapruzhenyi stan dovhoho porozhnystoho bimetalevoho tsylindra za elektromahnitnoi dii v rezhymi z impulsnym modulivnym syhnalom. Vestnyk Khersonskoho natsyonalnoho tekhnycheskoho unyversyteta, 2(45), 250-254.
2. Batygin, Yu. V., Lavinskij, V. I., Himenko, L. T. (2003). Impulsnye magnitnye polya dlya progressivnyh tehnologij. Harkov: MOST — Tornado.
3. Podstrigach, Ya. S., Burak, Ya. I., Gachkevich, A. R., Chernyavskaya, L.V. (1977). Termouprugost elektroprovodnyh tel. K.: Nauk. dumka.
4. Hachkevych, O. R., Musii, R. S., Tarlakovskyi, D. V. (2011). Termomekhanika neferomahnetnykh elektroprovidnykh til za dii impulsnykh elektromahnetnykh poliv z moduliatsiieiu amplitudy. Lviv: SPOLOM.
5. Musii, R. S. (2010). Dynamichni zadachi termomekhaniky elektroprovidnykh til kanonichnoi formy. Lviv: Vyd-vo «Rastr-7».
6. Musii, R., Melnyk, N., Vestiak, V., Shymchak, Y. (2012). Nesucha zdatnist bimetalevykh plastyn i tsylindriv za impulsnykh elektromahnitnykh dii. VII International Conference “POROUS MATERIALS Theory and Experiment (INTERPOR12) & Symposium “Mathematical Modeling and Optimization in Mechanics” (devoted to the memory of prof. Y.Y.Burak), 79-80.
7. Tamm, I. E. (1976). Osnovy teorii elektrichestva. M.: Nauka.
8. Ionov, V. N., Ogibalov, P. M. (1975). Napryazheniya v telah pri impulsivnom nagruzhenii. M.:Vyssh. shkola.
9. Lure, A. I. (1970). Teoriya uprugosti. M.: Nauka.
10. Bazhenov, V. G., Petrov, M. V. (1980). O primenenii magnitoimpulsnogo sposoba deformirovaniya dlya issledovaniya vyazkoplasticheskih harakteristik materialov. Prikladnye problemy prochnosti i plastichnosti. Metody resheniya zadach uprugosti i plastichnosti. Vsesoyuz. mezhvuz. sb. Gork. un-ta, 18-25.
11. Mettyuz, F., Rolings, R. (2004). Kompozitnye materialy. Mehanika i tehnologiya. M.: Tehnosfera.
12. Herlah, F. (1988). Silnye i sverhsilnye magnitnye polya i ih primenenie. Mir, 1988.