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Vezan termomehanski problem nosilca pri cikličnem upogibu
ID Zaletel, Jan (Author), ID Brojan, Miha (Mentor) More about this mentor... This link opens in a new window

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Abstract
V magistrski nalogi smo reševali vezan termomehanski problem cikličnega obremenjevanja konzolno vpetega polimernega nosilca. Upogib nosilca smo opisali s pomočjo Euler-Bernoullijeve teorije upogiba nosilcev, vpliv lokalne pritisne sile pa smo modelirali s pomočjo Boussinesqove rešitve linijske obremenitve na pol-ravnini. Z enačbo vezanega prevoda toplote smo določili temperaturno porazdelitev na obravnavanem območju. V matematični model smo s pomočjo določenih predpostavk vključili tudi druge prispevke generacije toplote, kot so trenje, viskozna disipacija energije in temperaturna odvisnost elastičnega modula. Razvili smo teoretični model, ki se ga lahko uporabi tudi za reševanje vezanega termomehanskega problema obremenjevanja polimernih zobnikov. Predstavili smo različne kriterije določanja maksimalne frekvence obremenjevanja in primerjali različne prispevke na generacijo toplote v nosilcu. Z magistrsko nalogo smo pokazali uporabnost analitičnih modelov pri reševanju termomehanskih problemov in alternativni način obravnave polimernih zobnikov.

Language:Slovenian
Keywords:vezan termomehanski problem, ciklični upogib, Boussinesqov problem, generacija toplote v nosilcu, prevod toplote, analitična rešitev
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FS - Faculty of Mechanical Engineering
Place of publishing:Ljubljana
Publisher:[J. Zaletel]
Year:2021
Number of pages:XXII, 64 str.
PID:20.500.12556/RUL-132536 This link opens in a new window
UDC:531.3/.4:531.224:536.2(043.2)
COBISS.SI-ID:85235971 This link opens in a new window
Publication date in RUL:28.10.2021
Views:754
Downloads:57
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Secondary language

Language:English
Title:Coupled thermomechanical problem of a beam under cyclic bending
Abstract:
In the master thesis, we solved coupled thermomechanical problem of cyclic loading of a polymer cantilever beam. The beam bending was described using Euler-Bernoulli theory, and the influence of the local compressive force was modeled using Boussinesq solution of the line load on a half-plane. The temperature distribution over the considered region is determined using coupled heat transfer equations. With the help of certain assumptions, we also included other contributions to heat generation in the mathematical model, such as friction, viscous energy dissipation, and the temperature dependence of the elastic modulus. We have developed a theoretical model that can also be used to solve coupled thermomechanical problems of polymer gears in service. We have presented different criteria for determining the maximum loading frequency and compared different contributions to the heat generation in the beam. With the master thesis we showed the usability of analytical models in solving thermomechanical problems and an alternative way of addressing the heating problem in polymer gears.

Keywords:coupled thermomechanical problem, cyclic bending, the Boussinesq problem, heat generation in a beam, heat transfer, analytical solution

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