Your search keyword '"r-function theory"' showing total 10 results

1. Mathematical and Computer Modeling of the Forms of Multi-Zone Fuel Elements with Plates

Author

Kyrylo V. Maksymenko-Sheiko, Tetiana I. Sheiko, Denys O. Lisin, and Nykyta D. Petrenko

Subjects

shells of fuel elements, fuel elements with chevron and polyzonal finning, r-function theory, 3d printer, Mechanical engineering and machinery, TJ1-1570

Abstract

Seeing the significant increase in the number of nuclear power plants, as well as models and modifications of nuclear reactors, it becomes important to find out/establish the advantages of certain plants. At the same time, designers face a number of questions for which optimal solutions have not yet been found. At nuclear plants, there is the largest turnover of financial funds and the smallest gain in economy brings huge profits, but one should not forget about reliability and costs during the plant construction. This is a complex problem that is solved at the design stage. Calculations of the reactor at the design stage make it possible to determine the main parameters of the active zone, temperature values, etc. Thermohydraulic calculation of the active zone of the reactor is one of the cornerstones in justifying the safe operation of the nuclear power plant. Calculations of coolant parameters and temperatures of fuel elements are carried out at all stages of designing and proving the safety of nuclear power plants. Twisted pipes and finned heat transfer surfaces are widely used in engineering to increase the effective heat transfer coefficient. In particular, longitudinal, transverse, and spiral edges are used for finning the shells of fuel elements of nuclear reactors and the outer surfaces of steam generator pipes. Finning not only increases the heat transfer surface on the side where the heat transfer coefficient has a low value, but also significantly affects the hydrodynamics of the flow, and thus affects this coefficient. It is obvious that the better the medium is mixed in the main flow and in the intercoral zone, the higher the heat transfer coefficient is. The most profitable forms of fuel elements shells finning are chevron and polyzonal finning, which are performed in the form of a multiturn spiral with a large step. The R-function theory turned out to be quite convenient for building mathematical models of finned shells of fuel elements with straight and helical plates, as well as for building the corresponding objects on a 3D printer. From a practical point of view, the relevance of the problem is also determined by the significant spread of twisted cylindrical bodies, twisted channels, coils in the energy, chemical, oil, gas, metallurgical industries and in heat engineering equipment. The flows that arise at this time make it possible to intensify the processes of heat and mass exchange and achieve savings in energy resources.

Published

2022

2. CALCULATION OF THE SPHERICAL ELEMENTS OF NON-UNIFORM THICKNESS FOR STRUCTURES WITH HOLES BASED ON THE VARIATIONAL RVR-METHOD.

Author

Salo, V., Nechiporenko, V., Rakivnenko, V., Horielyshev, S., Gleizer, N., and Kebko, A.

Subjects

PROBLEM solving, STRAINS & stresses (Mechanics), INHOMOGENEOUS materials, FOURIER series, VARIATIONAL principles, LEGENDRE'S polynomials

Abstract

This paper proposes a theoretically substantiated and universal new method to calculate the three-dimensional stressed-strained state of the statically loaded multi-link orthotropic shell of arbitrary thickness, made of heterogeneous material (a composite). The numerical-analytical RVR method used in this work is based on the Reissner principle, Vekua method, the R-function theory, as well as the algorithm of two-way assessment of the accuracy of approximate solutions to variational problems. In contrast to the classical principles by Lagrange and Castigliano, the application of the mixed variational Reissner principle yields an increase in the accuracy of solving boundary-value problems due to the independent variation of the displacement vector and the stress tensor. Vekua method makes it possible, as a result of expanding the desired functions into a Fourier series based on Legendre polynomials, to replace a solution to the three-dimensional problem with a regular sequence of solutions to the two-dimensional problems in the process of refining the models of shells. The R-function theory that takes into consideration, at the analytical level, the geometric information on boundary-value problems for multi-relationship regions is necessary to build the structures of solutions that accurately meet different boundary conditions. When studying spatial boundary-value problems, the constructed algorithm for a two-way integrated assessment of the accuracy of approximate solutions makes it possible to automate the search for such a number of approximations at which the process of solutions’ convergence becomes persistent. For an orthotropic spherical shell made from the material of non-uniform thickness and weakened by the pole holes, the RVR-method capabilities are shown on the numerical examples of solving the relevant boundary-value problems. The results of the reported research have been discussed, as well as the features typical of the new method, which could be effectively applied when designing responsible shell-type elements of structures in the different sectors of modern industry. [ABSTRACT FROM AUTHOR]

Published

2020

3. Dynamical instability of laminated plates with external cutout.

Author

Awrejcewicz, Jan, Kurpa, Lidiya, and Mazur, Olga

Subjects

*DYNAMICAL systems, *STABILITY (Mechanics), *LAMINATED materials, *FIRST-order phase transitions, *MECHANICAL buckling

Abstract

A method to study dynamical instability and non-linear parametric vibrations of symmetrically laminated plates of complex shapes and having different cutouts is proposed. The first-order shear deformation theory (FSDT) and the classical plate theory (CPT) are used to formulate a mathematical statement of the given problem. The presence of cutouts essentially complicates the solution of buckling problem, since the stress field is non-uniform. At first, a plane stress analysis is carried out using the variational Ritz method and the R-functions theory. The obtained results are applied to investigate buckling and parametric vibrations of laminated plates. The developed method uses the R-functions theory, and it may be directly employed to study laminated plates of arbitrary forms and different boundary conditions. Besides, the proposed method is numerical-analytical, what greatly facilitates a solution of similar-like non-linear problems. In order to show the advantage of the developed approach, instability zones and response curves for the layered cross- and angle-ply plates with external cutouts are constructed and discussed. [ABSTRACT FROM AUTHOR]

Published

2016

4. Розрахунок неоднорідних за товщиною сферичних елементів конструкцій з отворами на основі варіаційного RVR-методу

Author

Salo, Valentin, Nechiporenko, Vladimir, Rakivnenko, Valeriia, Horielyshev, Stanislav, Gleizer, Natalia, and Kebko, Alexander

Subjects

UDC 539.3, orthotropic shell of inhomogeneous thickness with holes, Reissner principle, R-function theory, неоднорідна за товщиною ортотропна оболонка з отворами, принцип Рейсснера, теорія R-функцій, неоднородная по толщине ортотропная оболочка с отверстиями, теория R-функций

Abstract

This paper proposes a theoretically substantiated and universal new method to calculate the three-dimensional stressed-strained state of the statically loaded multi-link orthotropic shell of arbitrary thickness, made of heterogeneous material (a composite). The numerical-analytical RVR method used in this work is based on the Reissner principle, Vekua method, the R-function theory, as well as the algorithm of two-way assessment of the accuracy of approximate solutions to variational problems. In contrast to the classical principles by Lagrange and Castigliano, the application of the mixed variational Reissner principle yields an increase in the accuracy of solving boundary-value problems due to the independent variation of the displacement vector and the stress tensor. Vekua method makes it possible, as a result of expanding the desired functions into a Fourier series based on Legendre polynomials, to replace a solution to the three-dimensional problem with a regular sequence of solutions to the two-dimensional problems in the process of refining the models of shells. The R-function theory that takes into consideration, at the analytical level, the geometric information on boundary-value problems for multi-relationship regions is necessary to build the structures of solutions that accurately meet different boundary conditions. When studying spatial boundary-value problems, the constructed algorithm for a two-way integrated assessment of the accuracy of approximate solutions makes it possible to automate the search for such a number of approximations at which the process of solutions’ convergence becomes persistent. For an orthotropic spherical shell made from the material of non-uniform thickness and weakened by the pole holes, the RVR-method capabilities are shown on the numerical examples of solving the relevant boundary-value problems. The results of the reported research have been discussed, as well as the features typical of the new method, which could be effectively applied when designing responsible shell-type elements of structures in the different sectors of modern industry, Предложен теоретически обоснованный и универсальный новый метод расчета трехмерного напряженно-деформированного состояния статически нагруженной многосвязной ортотропной оболочки произвольной толщины, изготовленной из неоднородного материала (композита). Используемый в работе численно-аналитический RVR-метод основан на принципе Рейсснера, методе И.Н. Векуа, теории R-функций и на алгоритме двусторонней оценки точности приближенных решений вариационных задач. В отличие от классических принципов Лагранжа и Кастильяно, применение смешанного вариационного принципа Рейсснера приводит к повышению точности решения краевых задач в силу независимого варьирования вектора перемещений и тензора напряжений. Метод И.Н. Векуа в результате разложения искомых функций в ряды Фурье по полиномам Лежандра позволяет заменить решение трехмерной задачи регулярной последовательностью решений двумерных задач в процессе уточнения моделей оболочек. Теория R-функций, которая на аналитическом уровне учитывает геометрическую информацию краевых задач для многосвязных областей, необходима для построения структур решений, точно удовлетворяющих различным вариантам граничных условий. При исследовании пространственных краевых задач разработанный алгоритм двусторонней интегральной оценки точности приближенных решений позволяет автоматизировать поиск такого количества аппроксимаций, при котором процесс сходимости решений приобретает стойкий характер. Для ослабленной полюсными отверстиями ортотропной сферической оболочки из неоднородного по толщине материала возможности RVR-метода показаны в численных примерах решения соответствующих краевых задач. Обсуждены результаты выполненных исследований, а также особенности, характерные для нового метода, который может найти эффективное приложение при проектировании ответственных оболочечных элементов конструкций в разных отраслях современной техники, Запропоновано теоретично обґрунтований й універсальний новий метод розрахунку тривимірного напружено-деформованого стану статично навантаженої багатозв’язної ортотропної оболонки довільної товщини, виготовленої з неоднорідного матеріалу (композиту). Чисельно-аналітичний метод RVR-метод, що використовується в роботі, заснований на принципі Рейсснера, методі І. М. Векуа та алгоритмі двосторонньої оцінки точності наближених рішень варіаційних задач. На відміну від класичних принципів Лагранжа і Кастільяно, застосування змішаного варіаційного принципу Рейсснера призводить до підвищення точності рішення крайових задач в силу незалежного варіювання вектора переміщень і тензора напружень. Метод І. М. Векуа в результаті розкладання шуканих функцій у ряди Фур’є по поліномах Лежандра дозволяє замінити рішення тривимірної задачі регулярною послідовністю рішень двовимірних задач в процесі уточнення моделей оболонок. Теорія R-функцій, що на аналітичному рівні враховує геометричну інформацію крайових задач для багатозв’язних областей, необхідна для побудови структур розв’язків, які точно задовольняють різним варіантам граничних умов. При дослідженні просторових крайових задач розроблений алгоритм двосторонньої інтегральної оцінки точності наближених розв’язків дозволяє автоматизувати пошук такої кількості апроксимацій, при якому процес збіжності розв’язків набуває стійкого характеру. Для послабленої полюсними отворами ортотропної сферичної оболонки з неоднорідного за товщиною матеріалу можливості RVR-методу показані в чисельних прикладах розв’язання відповідних крайових задач. Обговорено результати виконаних досліджень, а також особливості, що характерні для нового методу, який може знайти ефективне застосування при проектуванні відповідальних оболонкових елементів конструкцій в різних галузях сучасної техніки

Published

2020

5. Parametric vibrations of orthotropic plates with complex shape.

Author

Kurpa, L. V. and Mazur, O. S.

Subjects

*ELECTRONIC equipment, *PARAMETRIC devices, *RANDOM vibration, *FREQUENCY response, *THEORY

Abstract

The paper proposes a method to study the parametric vibrations of orthotropic plates with complex shape. The method is based on the R-function theory and variational methods. Dynamic-instability domains and amplitude-frequency responses for plates with complex geometry and different types of boundary conditions are plotted [ABSTRACT FROM AUTHOR]

Published

2010

6. Investigation into nonlinear vibrations of composite plates using the R-function theory.

Author

Kurpa, L. and Timchenko, G.

Subjects

*STRUCTURAL plates, *VIBRATION (Mechanics), *GEOMETRIC function theory, *NUMERICAL analysis, *GEOMETRY, *BOUNDARY value problems

Abstract

We have developed an effective approach to the solution of problems on geometrically nonlinear vibrations of orthotropic multilayer plates of irregular shapes in a classical statement based on the use of the R-function theory, Ritz variational method and Bubnov-Galerkin method. Using the proposed method, problems of vibrations of both multilayer rectangular plates and plates of complex geometries have been solved. The effect of the domain geometry and boundary conditions on the amplitude-frequency characteristics has been investigated. [ABSTRACT FROM AUTHOR]

Published

2007

7. Studying the nonlinear vibrations of statically compressed plates.

Author

Kurpa, L. V. and Masur, O. S.

Subjects

*VIBRATION (Mechanics), *ELASTIC plates & shells, *MATERIAL plasticity, *STRUCTURAL shells, *FREQUENCY response, *MECHANICS (Physics)

Abstract

The paper outlines a method for studying the vibrations of plates of complex geometry subjected to in-plane loading. The method is based on the R-function and variational methods. It is used to plot frequency response of plates with complex geometry and different boundary conditions [ABSTRACT FROM AUTHOR]

Published

2006

8. Research of Nonlinear Vibrations of Laminated Shallow Shells with Cutouts by R-functions Method

Author

G. Timchenko, L. Kurpa, and A. Osetrov

Subjects

Timoshenko’s theory, Physics, laminated shallow shells, business.industry, нелінійні коливання, Materials Science (miscellaneous), Analytical chemistry, Structural engineering, теорія R-функций, програмне забезпечення, Industrial and Manufacturing Engineering, процедури Бубнова-Галеркина, багатошарові пологі оболонки, нелінійна система рівнянь, Business and International Management, теорія Тимошенко, business, geometrically nonlinear vibrations, R-function theory

Abstract

In present work an effective method to research geometrically nonlinear free vibrations of elements of thin-walled constructions that can be modeled as laminated shallow shells with complex planform is applied. The proposed method is based on joint use of R-functions theory, variational methods and Bubnov-Galerkin procedure. It allows reducing an initial nonlinear system of motion equations of a shallow shell to the Cauchy problem. The mathematical formulation of the problem is performed in a framework of the refined first-order theory. The appropriate software is created within POLE-RL program system for polynomial results and using C++ programs for splines. New problems of linear and nonlinear vibrations of laminated shallow shells with cutouts are solved. To confirm reliability of the obtained results their comparison with the ones obtained using spline-approximation and known in literature is provided. Effect of boundary condition on cutout is studied. У цій роботі запропоновано ефективний метод дослідження геометрично нелінійних власних коливань тонкостінних елементів конструкцій, які можуть моделюватися багатошаровими пологими оболонками зі складною формою в плані. Запропонований метод базується на сумісному використанні теорії R-функцій, варіаційних методів і процедури Бубнова-Галеркина. Це дозволяє звести спочатку нелінійну систему рівнянь руху до задачі Коші. Математична постановка задачі виконана у рамках уточненої теорії першого порядку. Створено відповідне програмне забезпечення в системі POLE-RL для поліноміальних результатів із використанням C++ програми для сплайнів. Розв’язані нові задачі лінійних і нелінійних коливань багатошарових пологих оболонок з вирізами. Для підтвердження надійності отриманих результатів проведено їх порівняння з отриманими за допомогою сплайн-апроксимації та з відомими із літератури. Досліджений ефект граничних умов на вирізі.

Published

2016

9. Nonlinear vibrations of functionally graded shallow shells of a complex planform in thermal environments

Author

Awrejcewicz, Jan, Kurpa, Lidiya, and Shmatko, Tatiana

Subjects

thermal environment, R–function theory, FGM shallow shells, geometrically nonlinear vibrations

Abstract

Geometrically nonlinear vibrations of FGM shallow shells of an arbitrary planform subjected to thermal environment are investigated with the use of R-functions theory and variational methods. Nonlinear firstorder shear deformation shallow shells are employed. Material properties are assumed to be temperaturedependent and varying along the thickness direction accordingly to Voigt’s law. The developed method is based on the combined applications of R-functions theory, variational Ritz’s method, procedure by Bubnov-Galerkin, and Runge-Kutta’s approach. The effect of the temperature rise, geometry of the shell, and constituent volume fraction index is examined. A comparison of the obtained results with available ones is also carried out for rectangular plates and shallow shells.

Published

2017

10. Applicatin of R-functions Theory to Nonlinear Vibration Problems of Laminated Shallow Shells with Cutouts

Author

Kurpa, Lidiya, Timchenko, Galina, and Osetrov, Andrey

Subjects

Timoshenko’s theory, laminated shallow shells, geometrically nonlinear vibrations, R-function theory

Abstract

In present work an effective method to research geometrically nonlinear free vibrations of elements of thinwalled constructions that can be modeled as laminated shallow shells with complex planform is applied. The proposed method is based on joint use of R-functions theory, variational methods and Bubnov-Galerkin procedure. It allows reducing an initial nonlinear system of motion equations of a shallow shell to the Cauchy problem. The mathematical formulation of the problem is performed in a framework of the refined first-order theory. The appropriate software is created within POLE-RL program system for polynomial results and using C+ + programs for splines. New problems of linear and nonlinear vibrations of laminated shallow shells with cutouts are solved. To confirm reliability of the obtained results their comparison with the ones obtained using spline-approximation and known in literature is provided. Effect o f boundary condition on cutout is studied.

Published

2016