ОПТИМІЗАЦІЯ ПЛИТНОГО ФУНДАМЕНТУ ВИСОТНОЇ БУДІВЛІ ЗА МЕТОДОМ ГРАНИЧНИХ ЕЛЕМЕНТІВ

Authors

  • A. S. Morhun Vinnytsia National Technical University
  • V. O. Zadorozhniuk Vinnytsia National Technical University
  • A. V. Baraniuk Vinnytsia National Technical University

DOI:

https://doi.org/10.31649/1997-9266-2019-142-1-13-17

Keywords:

method of boundary elements, stress-deformed state, slab foundation, optimization, high building

Abstract

The theme is devoted to the actual problem of foundation engineering and soil mechanics - elastic-plastic modeling of the joint operation of the "ground foundation — slab foundation" system in order to determine the bearing capacity of the foundation and the choice of its optimal thickness. The development of the construction industry is associated with the introduction in the building practice of new technologies of predictive calculation. Significant increase in the weight of modern structures, which is transferred to the basis, necessitates the development of non-linear methods for calculating drill piles, which in these conditions are the most effective types of foundation structures.

Construction of buildings is a labor-intensive process that requires well-balanced, well-calculated steps and solving complex mathematical problems. This is especially true for the installation of a part of the building, which perceives the load and transfers them to the foundation — the foundation. It is extremely important to provide stability and low occupancy of the structure, thus avoiding its possible uneven subsidence or destruction. To do this, ensure prediction and numerical implementation of calculations of structures. Therefore, the model of the equation of equilibrium of the foundation immersed in the soil medium, which satisfies the Laplace differential equation, is developed. The main calculation equation of the soil model is the integral equation obtained by K. Brebbia.

The attachment of numerical MGE to the solution of the nonlinear problem of geomechanics is substantiated by theoretical calculations, supported and illustrated by numerical calculations.

Nonlinear task of the process of deformation of bases is solved using step method of O. A. Iliushin The soil was modeled by theory of V. M. Nikolaievskyi and I. P. Boiko. Full deformations were determined, which consisted of increments of elastic and plastic deformations. The layout of the calculation matrix of the influence of the MGE was performed on the basis of the decisions of R. Mindlin.

The results of the forecast for the IHE are given on the plot of the "loading-settling" of the base plate. The fidelity of the choice of the settlement dilatation model is confirmed by the correspondence of numerical studies with experimental research.

Author Biographies

A. S. Morhun, Vinnytsia National Technical University

Dr. Sc. (Еng.), Professor, Head of the Chair of Construction, and Urban Architecture

V. O. Zadorozhniuk, Vinnytsia National Technical University

Post-Graduate Student of the Chair of Construction, and Urban Architecture

A. V. Baraniuk, Vinnytsia National Technical University

Student of the Department of Building, Heat Power Industry and Gas-Supplying

References

Eurocode 7. Geotechnical design. Part 2. Design assisted by laboratory testing. European Committee for Standardization Brussals, 2000.

И. П. Бойко, Теоретические основы проектирования свайных фундаментов на упруго-пластическом основании. Москва, СРСР: Будівельник, 1985.

А. С. Моргун, І. М. Меть, та А. В. Ніцевич, Моделювання ефекту взаємодії системи «будівля-фундамент-основа» за числовим методом граничних елементів. Вінниця, Україна: ВНТУ, 2010.

Э. И. Григолюк, Ред., Методы граничных элементов. Москва, СРСР: Мир, 1987.

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Published

2019-02-28

How to Cite

[1]
A. S. Morhun, V. O. Zadorozhniuk, and A. V. Baraniuk, “ОПТИМІЗАЦІЯ ПЛИТНОГО ФУНДАМЕНТУ ВИСОТНОЇ БУДІВЛІ ЗА МЕТОДОМ ГРАНИЧНИХ ЕЛЕМЕНТІВ”, Вісник ВПІ, no. 1, pp. 13–17, Feb. 2019.

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Section

Civil engineering

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