Mixed finite-element method in V.I. Slivker’s semi-shear thin-walled bar theory
Copyright policy )Mixed finite-element method in V.I. Slivker’s semi-shear thin-walled bar theory
Variational formulation of stability problems for thin-walled beams is presented. Geometrical stiffness matrix is derived from the stability functional. Shear deformation is taken into account by using V.I.Slivker’s semi-shear theory of thin-walled bars. Quadratic Hermite polynomials were considered as approximation for all the internal forces and displacements functions. The exact analytical solutions to some particular eigenfrequency and stability problems for thin-walled beam are obtained. The effect of «spurious» frequencies in thin-walled beam spectrum is discussed. Comparison of the numerical results from the finite element methods is presented. Approximation by quadratic functions turns out to be faster in cases where the buckling has a flexural-torsional form.
Представлена вариационная постановка задач устойчивости тонкостенных стержней. Получена матрица геометрической жесткости конечного элемента на основе функционала устойчивости. С помощью полусдвиговой теории В.И. Сливкера произведен учет деформации сдвига в поперечном сечении тонкостенного стержня. В качестве аппроксимации искомых функций перемещений и внутренних усилий рассмотрены линейные полиномы Эрмита. Для некоторых частных задач тонкостенных стержней представлено точное аналитическое решение. Произведено численное сравнение результатов расчета методами конечных элементов. Аппроксимация квадратичными функциями оказывается быстрее в тех случаях, когда потеря устойчивости имеет изгибно-крутильную форму.
- Peter the Great St. Petersburg Polytechnic University Russian Federation
Building construction, Reissner’s functional, reissner’s functional, thin-walled beam, смешанный метод конечных элементов, slivker’s semi-shear theory, Engineering (General). Civil engineering (General), полусдвиговая теория Сливкера, mixed finite element method, Slivker’s semi-shear theory, тонкостенный стержень, TA1-2040, функционал Рейсснера., TH1-9745
Building construction, Reissner’s functional, reissner’s functional, thin-walled beam, смешанный метод конечных элементов, slivker’s semi-shear theory, Engineering (General). Civil engineering (General), полусдвиговая теория Сливкера, mixed finite element method, Slivker’s semi-shear theory, тонкостенный стержень, TA1-2040, функционал Рейсснера., TH1-9745
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