ASPECTS OF DETERMINING THE BEARING CAPACITY OF THE PILE FIELD FOR THE MGA

Authors

  • Alla Morgun Vinnytsia national technical University
  • Yevgen Novitsky Vinnytsia national technical University
  • Igor Shevchenko Vinnytsia national technical University

Keywords:

boundary element method, field, pile, bearing capacity

Abstract

For numerical boundary element method predicted bearing capacity spaen field structures of the 153 prismatic piles with length of 22 m, W cross-section piles 35*35 cm under the action of vertical loading. When composing the matrix effect of the method of boundary elements for each pile takes into account the effect of the active zones of adjacent piles, the optimal value a is determined in the numerical study. In Acosta fundamental solutions of the design equations mga taken an analytical solution for Mindlin R. elastic plane which significantly reduces the amount of computational work, turning to zero the integral over the boundary of poluploskosti. Vyiavlennia redistribution of efforts between the piles spaen field corresponds to the data of experimental studies and numerical studies for MCE.

Author Biographies

Alla Morgun, Vinnytsia national technical University

dr. sciences, professor, head of the Department of construction, urban and architecture of Vinnytsia national technical university

Yevgen Novitsky, Vinnytsia national technical University

master of the Department of construction, urban management and architecture

Igor Shevchenko, Vinnytsia national technical University

student

References

1. Бреббия К. Методы граничных елементов / К. Бреббия, Ж. Теллес, Л. Вроубел. – М.: Мир.1987. – 525 с.
2. Комп’ютерні технології розрахунку фундаментних конструкцій на основі МГЕ / А. С. Моргун, І. М. Меть, А. В. Ніцевич // Вінниця; ВНТУ, 2009. – 162 с.

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Published

2017-08-22

How to Cite

[1]
A. Morgun, Y. Novitsky, and I. . Shevchenko, “ASPECTS OF DETERMINING THE BEARING CAPACITY OF THE PILE FIELD FOR THE MGA”, СучТехнБудів, vol. 22, no. 1, pp. 27–30, Aug. 2017.

Issue

Vol. 22 No. 1 (2017)

Section

SOIL MECHANICS AND FOUNDATIONS

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Copyright (c) 2017 Alla Morgun, Yevgen Novitsky, Igor Shevchenko

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

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