Solutions of coupled problem of thermomechanics for electroconductive hollow cylinder under non-stationary electromagnetic action
Електронний науковий архів Науково-технічної бібліотеки Національного університету "Львівська політехніка"
Переглянути архів Інформація| Поле | Співвідношення | |
| Title |
Solutions of coupled problem of thermomechanics for electroconductive hollow cylinder under non-stationary electromagnetic action
Розв’язки зв’язаної задачі термомеханіки для електропровідного порожнистого циліндра за нестаціонарної електромагнітної дії |
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| Creator |
Мусій, Р.
Дрогомирецька, Х. Орищишин, О. Musij, R. Drohomyretska, Kh. Oryshchyn, O. |
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| Contributor |
Національний унівеpситет «Львівська політехніка»
Lviv Polytechnic National University |
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| Subject |
зв’язана задача термомеханіки
порожнистий електропровідний циліндр нестаціонарна електромагнітна дія апроксимація інтегральні характеристики coupled problem of thermomechanics hollow electroconductive cylinder nonstationary electromagnetic action approximation integral characteristics 539.3 |
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| Description |
Сформульовано плоску осесиметричну зв’язану динамiчну задачу термомеханiки для електропровiдного порожнистого цилiндра за однорiдної нестацiонарної електрома- гнiтної дiї. Для побудови ї ї розв’язку використано апроксимацiю визначальних фун- кцiй осьової комппоненти вектора напруженостi магнiтного поля, температури та радiальної компоненти вектора перемiщень за радiальною змiнною кубiчними по- лiномами. У результатi вихiднi початково-крайовi задачi на визначальнi функцiї зве- дено до задач Кошi за часовою змiнною на iнтегральнi характеристики цих функцiй. Отримано вирази iнтегральних характеристик у виглядi згорток функцiй, що опи- сують однорiднi розв’язки та заданi граничнi значення визначальних функцiй. Як приклад числово проаналiзовано амплiтудно-частотнi характеристики радiальних на- пружень у цьому цилiндрi за врахування зв’язностi полiв температури i перемiщень i без такого врахування. A plane axisymmetrical coupled dynamic problem of thermomechanics for an electroconductive hollow cylinder under homogeneous non-stationary electromagnetic action is formulated. To construct its solution, the approximation of the determining functions the axial component of the magnetic field strength vector, the temperature, and the radial component of the displacement vector with respect to the radial variable by cubic polynomials is used. As the result, the initial-boundary problem for determining functions is reduced to a Cauchy problem with respect to the time variable for the integral characteristics of these functions. The expressions of integral characteristics are obtained in the form of a convolution of functions describing the uniform solutions and the given limit values of determining functions. As an example, the amplitude-frequency characteristics of the radial stresses in the given cylinder are analyzed numerically, with taking into account the connectivity between the temperature and the displacement fields as well as without such accounting. |
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| Date |
2018-06-05T14:12:29Z
2018-06-05T14:12:29Z 2017-06-15 2017-06-15 |
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| Type |
Article
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| Identifier |
Musij R. Solutions of coupled problem of thermomechanics for electroconductive hollow cylinder under non-stationary electromagnetic action / R. Musij, Kh. Drohomyretska, O. Oryshchyn // Mathematical Modeling and Computing. — Lviv : Lviv Politechnic Publishing House, 2017. — Vol 4. — No 1. — P. 69–77.
2312-9794 http://ena.lp.edu.ua:8080/handle/ntb/41474 Musij R. Solutions of coupled problem of thermomechanics for electroconductive hollow cylinder under non-stationary electromagnetic action / R. Musij, Kh. Drohomyretska, O. Oryshchyn // Mathematical Modeling and Computing. — Lviv : Lviv Politechnic Publishing House, 2017. — Vol 4. — No 1. — P. 69–77. |
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en
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| Relation |
Mathematical Modeling and Computing, 1 (4), 2017
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Osnovy teorii electrichestva [Fundamentals of electricity theory]. Moscow, Nauka. (1976), (in Russian). [6] Moon F.C. Magnetosolid mechanics. New York, Willey. (1984). [7] GribanovV. F. Sviazannyiie i dinamicheskiie zadachi termouprugosti [Connected and dynamical problems of thermoelasticity]. Moscow, Mashynostroeniie. (1984), (in Russian). [8] PyrievYu.O. Poshirennia hvil u pruzhnikh seredovishchakh z urakhuvanniam sviaznosti fizikomekhanichnikh poliv [Wave distribution in elastic medium considering connectivity of physico-mechanical fields]. Lviv, Svit. (1988), (in Ukranian). [9] HachkevychO.R., MusijR. S., StasiukH.B. Zviazana zadacha termomekhaniky dlia elektroprovidnoho sharu za odnoridnoij impulsnoij diji [Connected problem of thermomechanics for electroconductive layer under homogeneous impulse action]. Fiz.-meckh. mekhanika materialiv. 45(4), 60–66 (2009), (in Ukranian). [10] MusiyR. S. Dynamichni zadachi termomekhaniky electroprovidnykh til kanonichnoji formy [Dynamic problems of thermomechanics for conductive bodies of canonical form]. Lviv, Rastr-7 Publ. (2010), (in Ukranian). [11] HachkevychO.R., MusijR. S., TarlakovskyiD.V. Termomekhanika neferomahnitnykh elektroprovidnykh elektromakhnitnykh poliv z moduliatsiieiu amplitudy [The therrmomechanics of nonferromagnetic conductive bodies for the action of the pulse electromagnetic fields with amplitude modulation]. Lviv, SPOLOM. (2011), (in Ukranian). [12] MusijR. S., ShymchakY. J. The methodology of investigation of resonance phenomena in nonferromagnetic electroconductive solids of canonical form under electromagnetic action with impulse modulating signal. Fizyko-matematychne modeliuvannia ta infopmatsiini tekhnolohuu [Physico-mathematical modelling and informational technologies]. 8, 113–129 (2008), (in Ukranian). [1] BatyiginYu.V., LavinskyV. I., Himenko L.T. Impulsnyie magnitnyie polya dlya progressivnyih tehnologij [Impulse magnetic fields for advanced technologies]. Harkov, MOST-Tornado Publ., 288 p. (2003), (in Russian). [2] Tiermoprugost eliectroprovodnykh tiel [Thermoelasticity of conductive bodies] J. S.Podsrigach, Y. I.Burak, A.R.Hachkevych, L.V.Chernjavska. Kyiv, Naukova dumka. (1977), (in Russian). [3] Silnye i sverhsilnye magnitnyie polia i ikh primenenie [Strong and superstrong magnetic fields and their applications]. Pod red. Herlaha F. Moscow, Mir Publ. (1988), (in Russian). [4] KnopfelG. Sverkhsilnyie impulsnyie magnitnyie polia. Metody generacii i fizicheskie effecty, sviazannyie s sozdaniem impulsnykh polej megaerstednogo diapazona [Superstrong impulse magnetic fields. Methods of generation and physical effects, connected with action of impulse fields of megaersted diapasone]. Moscow, Mir. (1972), (in Russian). [5] TammI.E. Osnovy teorii electrichestva [Fundamentals of electricity theory]. Moscow, Nauka. (1976), (in Russian). [6] Moon F.C. Magnetosolid mechanics. New York, Willey. (1984). [7] GribanovV. F. Sviazannyiie i dinamicheskiie zadachi termouprugosti [Connected and dynamical problems of thermoelasticity]. Moscow, Mashynostroeniie. (1984), (in Russian). [8] PyrievYu.O. Poshirennia hvil u pruzhnikh seredovishchakh z urakhuvanniam sviaznosti fizikomekhanichnikh poliv [Wave distribution in elastic medium considering connectivity of physico-mechanical fields]. Lviv, Svit. (1988), (in Ukranian). [9] HachkevychO.R., MusijR. S., StasiukH.B. Zviazana zadacha termomekhaniky dlia elektroprovidnoho sharu za odnoridnoij impulsnoij diji [Connected problem of thermomechanics for electroconductive layer under homogeneous impulse action]. Fiz.-meckh. mekhanika materialiv. 45(4), 60–66 (2009), (in Ukranian). [10] MusiyR. S. Dynamichni zadachi termomekhaniky electroprovidnykh til kanonichnoji formy [Dynamic problems of thermomechanics for conductive bodies of canonical form]. Lviv, Rastr-7 Publ. (2010), (in Ukranian). [11] HachkevychO.R., MusijR. S., TarlakovskyiD.V. Termomekhanika neferomahnitnykh elektroprovidnykh elektromakhnitnykh poliv z moduliatsiieiu amplitudy [The therrmomechanics of nonferromagnetic conductive bodies for the action of the pulse electromagnetic fields with amplitude modulation]. Lviv, SPOLOM. (2011), (in Ukranian). [12] MusijR. S., ShymchakY. J. The methodology of investigation of resonance phenomena in nonferromagnetic electroconductive solids of canonical form under electromagnetic action with impulse modulating signal. Fizyko-matematychne modeliuvannia ta infopmatsiini tekhnolohuu [Physico-mathematical modelling and informational technologies]. 8, 113–129 (2008), (in Ukranian). |
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| Rights |
© 2017 Lviv Polytechnic National University CMM IAPMM NASU
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69-77
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Lviv
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| Publisher |
Lviv Politechnic Publishing House
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