Modern computer methods of multivariant analysis of a tall building
Modern computer methods of multivariant analysis of a tall building
Data
2013
Autorzy
Matulewicz, Sandra
Miedziałowski, Czesław
Tytuł czasopisma
ISSN czasopisma
Tytuł tomu
Wydawca
Państwowa Szkoła Wyższa im. Papieża Jana Pawła II w Białej Podlaskiej
Streszczenie
At the beginning of this material to familiarize the reader with the definition of a
high building and shows how modern, dynamically developing urban centers and
with their growth, increasing the demand for housing high. This is confirmed by the
examples presented in the article, the tallest buildings in the world. In this paper we
present a variant static analysis of building construction high. It was carried out on the
computational model described in point. 2 Calculations were performed in Autodesk
Robot Structural Analysis 2012. In the first embodiment focuses on the calculation
adopted discretization effects. The analysis was four computational models vary in
terms of the finite element shape (square or triangular) and the maximum dimension
of the finite element (0.50 m or 1.00 m). We analyzed the behavior of the structure
according to the modeled subsoil on which it was set. In this variant, have been studied
in two models of the object. In one model was taken into account susceptibility of the
ground, while the second vulnerability is omitted and assumed the rigid connection.
Another important problem that the stiffness of the building is analyzed, namely the
effect of increasing stiffness are located inside the object individual components.
Another element that was tested in the calculation of their time and memory occupation.
In the last paragraph of articles presents the results of analyzes with figures obtained
from the calculation. Selected elements more fully described in the tables. Analysis
results were compared with each other and makes appropriate proposals, which were
presented in the results of the subsequent variants of the analysis.
Opis
Słowa kluczowe
high building,
finite elements,
discretization