A. N. Mushnikov, S. M. Zadvorkin, E. N. Perunov, S. V. Vyskrebencev, R. F. Izmajlov, D. I. Vichuzhanin, N. N. Soboleva, A. S. Igumnov
EXPERIMENTAL FACILITY FOR STUDYING THE PHYSICAL PROPERTIES OF MATERIALS IN A PLANE STRESS STATE
DOI: 10.17804/2410-9908.2022.4.050-060 An original experimental facility for studying the physical properties of materials during elastic-plastic deformation along two axes has been created. The facility has no ferromagnetic parts in the working area, thus enabling us to make more accurate magnetic measurements. Biaxial deformation is simulated by the finite element method in order to optimize the geometry of the specimen and to determine the stress state in the central zone of the specimen. Test experiments on the effect of biaxial tension on the coercive force of the 12G2S are performed.
Acknowledgements: The work was performed under the state assignment on theme No. AAAA-A18-118020790148-1. The equipment of the Plastometriya shared research facilities center of the IES UB RAS was used to determine the initial properties of the specimen material. The Uran supercomputer of the IMM UB RAS was used in the simulation. Keywords: biaxial deformation, plane stress state, nondestructive testing Bibliography:
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А. Н. Мушников, С. М. Задворкин, Е. Н. Перунов, С. В. Выскребенцев, Р. Ф. Измайлов, Д. И. Вичужанин, Н. Н. Соболева, А. С. Игумнов
ЭКСПЕРИМЕНТАЛЬНАЯ УСТАНОВКА ДЛЯ ИССЛЕДОВАНИЙ ФИЗИЧЕСКИХ СВОЙСТВ МАТЕРИАЛОВ В УСЛОВИЯХ ПЛОСКОГО НАПРЯЖЕННОГО СОСТОЯНИЯ
Создана оригинальная экспериментальная установка, предназначенная для исследования физических свойств материалов в процессе упругопластического деформирования по двум осям. Установка не имеет ферромагнитных деталей в рабочей зоне, что позволяет более точно проводить магнитные измерения. Выполнено моделирования процесса двухосного деформирования методом конечных элементов для оптимизации геометрии образца и определения напряженного состояния в центральной зоне образца. Проведены тестовые эксперименты по определению влияния двухосного растяжения на коэрцитивную силу конструкционной стали 12Г2С.
Благодарности: Работа выполнена в рамках государственного задания по теме № АААА-А18-118020790148-1. Для определения исходных свойств материала образца было использовано оборудование ЦКП «Пластометрия» ИМаш УрО РАН. При проведении моделирования был использован суперкомпьютер «Уран» ИММ УрО РАН. Ключевые слова: двухосное деформирование, плоское напряженное состояние, неразрушающий контроль Библиография:
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- Rotational single sheet tester for multiaxial magneto-mechanical effects in steel sheets / U. Aydin, F. Martin, P. Rasilo, A. Belahcen, A. Haavisto, D. Singh, L. Daniel, A. Arkkio // IEEE Transactions on magnetics. – 2019. – Vol. 55, No. 3. – 2001810. – DOI: 10.1109/TMAG.2018.2889238.
- Modeling of multi-axial stress dependent iron losses in electrical steel sheets / U. Aydin, P. Rasilo, F. Martin, A. Belahcen, L. Daniel, A. Arkkio // Journal of Magnetism and Magnetic Materials. – 2020. – Vol. 504. – 166612. – DOI: 10.1016/j.jmmm.2020.166612.
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Библиографическая ссылка на статью
Experimental Facility for Studying the Physical Properties of Materials in a Plane Stress State / A. N. Mushnikov, S. M. Zadvorkin, E. N. Perunov, S. V. Vyskrebencev, R. F. Izmajlov, D. I. Vichuzhanin, N. N. Soboleva, A. S. Igumnov // Diagnostics, Resource and Mechanics of materials and structures. -
2022. - Iss. 4. - P. 50-60. - DOI: 10.17804/2410-9908.2022.4.050-060. -
URL: http://dream-journal.org/issues/content/article_365.html (accessed: 21.11.2024).
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