The strength calculation of concrete stabs in a soft-ware environment ANSYS

Authors

  • Aleksey V. Shirko Belarusian State Technological University; 220006, Belarus, Minsk, ul. Sverdlova, 13A
  • Andrey N. Kamlyuk State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; 220118, Belarus, Minsk, ul. Mashinostroiteley, 25 https://orcid.org/0000-0002-9347-0778
  • Ivan I. Polevoda State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; 220118, Belarus, Minsk, ul. Mashinostroiteley, 25 https://orcid.org/0000-0003-2469-3553
  • Natal'ya V. Zaynudinova State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; 220118, Belarus, Minsk, ul. Mashinostroiteley, 25

Keywords:

strength analysis, computer modeling, concrete slab, the temperature field

Abstract

The strength calculation of concrete slabs in a software environment ANSYS was examined in article. The behavior of the models under standard fire exposure are studied. The estimation of the fire resistance of the models was proposed. The simulation results are compared with experimental data.

Author Biographies

Aleksey V. Shirko, Belarusian State Technological University; 220006, Belarus, Minsk, ul. Sverdlova, 13A

PhD in Physical and Mathematical Sciences

Andrey N. Kamlyuk, State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; 220118, Belarus, Minsk, ul. Mashinostroiteley, 25

PhD in Physical and Mathematical Sciences, Associate Professor

Ivan I. Polevoda, State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; 220118, Belarus, Minsk, ul. Mashinostroiteley, 25

PhD in Technical Sciences, Associate Professor

References

Wilson, E.L. Incompatible Displacement Models / E.L. Wilson, R.L. Taylor, W.P., Doherty, J. Ghaboussi // Numerical and Computer Methods in Structural Mechanics. edited by S.J. Fenves, et al.. Academic Press, Inc.. N. Y. and London. – 1973. – P. 43–57.

Taylor, R.L. A Non-Conforming Element for Stress Analysis / R.L. Taylor, P.J. Beresford, E.L. Wilson // International Journal for Numerical Methods in Engineering – 1976. – Vol. 10. – P. 1211–1219.

Schnobrich, W.C. Finite Element Analysis of Reinforced Concrete / W.C. Schnobrich, M. Suidan // ASCE Journal of the Structural Division. ST10. – 1973. – P. 2109–2122.

MacGregor, J.G. Reinforced Concrete Mechanics and Design // Prentice-Hall, Inc., Englewood Cliffs, NJ. 1992.

Nawy, E.G. Prestressed Concrete: A Fundamental Approach // Prentice-Hall, Inc., Upper Saddle River, NJ. 2000.

Branson, D.E. Loss of Prestress, Camber and Deflection of Noncomposite and Composite Structures Using Different Weight Concrete / D.E. Branson, B.L. Meyers, K.M. Kripanarayanan // Iowa State Highway Comission, Report. – 1970. – № 70. – P. 6.

Shing, P.B. Ed. Modeling of Inelastic Behavior of RC Structures Under Seismic Loads / P.B. Shing, T.A. Tanabe, American Society of Civil Engineers. – 2001.

Tavarez, F.A. Simulation of Behavior of Composite Grid Reinforced Concrete Beams Using Explicit Finite Element Methods / Master’s Thesis, University of Wisconsin-Madison, Madison, Wisconsin. – 2001.

Еврокод 2. Проектирование железобетонных конструкций. Часть 1-2. Общие правила определения огнестойкости [Текст] = Еўракод 2. Праектаванне жалезабетонных канструкцый. Частка 1-2. Агульныя правiлы вызначэння вогнеўстойлiвасці : ТКП EN 1992–1–2–2009. – Введ. 01–01–10. – Минск: М-во архитектуры и стр-ва Респ. Беларусь, 2010. – 86 с. – (Национальный комплекс технических нормативных правовых актов в области архитектуры и строительства).

Ширко, А.В. Теплотехнический расчет огнестойкости элементов железобетонных конструкций с использованием программной среды ANSYS / А.В. Ширко, А.Н. Камлюк, И.И. Полевода, Н.В. Зайнудинова // Вестник Командно-инженерного института МЧС Республики Беларусь. – 2013. – № 2(18). – С. 260–269.

Ширко, А.В. Методика создания параметрических моделей железобетонных элементов конструкций / А.В. Ширко, А.Н. Камлюк, И.И. Полевода, А.С. Дробыш // Чрезвычайные ситуации: образование и наука. – 2013. – Т. 8, № 1. – С. 48–54.

Willam, K.J. Constitutive Model for Triaxial Behaviour of Concrete / K.J. Willam, E.P. Warnke // Seminar on Concrete Structures Subjected to Triaxial Stresses, International Association of Bridge and Structural Engineering Conference. – Bergamo, Italy, 1974. – P. 174.

Faherty, K.F. An Analysis of a Reinforced and a Prestressed Concrete Beam by Finite Element Method // Doctorate’s Thesis, University of Iowa, Iowa City. – 1972.

Тимошенко, С.П. Сопротивление материалов: в 2 т. / пер. с англ. – М.: Наука, Т. 1: Элементарная теория и задачи, 1965. – 363 с.; Т. 2: Более сложные вопросы теории и задачи, 1965. – 480 с.

Левитский, Е.В. Диаграммный метод решения статической задачи расчета огнестойкости железобетонных конструкций [Электронный ресурс]: Дис. канд. техн. наук: 05.23.01. М.: РГБ, 2007. (Из фондов Российской Государственной Библиотеки).

Камлюк, А.Н. Модели материалов арматуры и бетона для теплотехнических и прочностных расчетов на примере российского стандарта / А.Н. Камлюк, А.В. Ширко, И.И. Полевода // Вестник Командно-инженерного института МЧС Республики Беларусь. – 2013. – № 1(17). – С.104–116.

Downloads


Abstract views: 282
PDF Downloads: 48

Published

2014-03-11

How to Cite

Shirko А., Kamlyuk А., Polevoda И. and Zaynudinova Н. (2014) “The strength calculation of concrete stabs in a soft-ware environment ANSYS”, Vestnik of the Institute for Command Engineers of the MES of the Republic of Belarus, 19(1), pp. 48–58. Available at: https://journals.ucp.by/index.php/vice/article/view/472 (Accessed: 22 November 2024).

Most read articles by the same author(s)

1 2 3 4 5 > >>