Using statistical methods to determine the load-bearing capacity of rectangular CFST columns

Using statistical methods to determine the load-bearing capacity of rectangular CFST columns

In the current practice of construction and design of transport facilities, structures with external reinforcement are commonly used which effectively resist compression. The use of steel-concrete and composite structures enables us to reduce material consumption and cost of structures significantly...

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Main Authors: Vatulia Glib, Orel Yevhen, Rezunenko Maryna, Panchenko Nataliia
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201823404002
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spelling doaj-8eb1681e46af422dbd0416da159be12b2021-02-02T01:52:52ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-012340400210.1051/matecconf/201823404002matecconf_bultrans2018_04002Using statistical methods to determine the load-bearing capacity of rectangular CFST columnsVatulia Glib0Orel Yevhen1Rezunenko Maryna2Panchenko Nataliia3Ukrainian State University of Railway Transport, Structural Mechanics and Hydraulics DepartmentUkrainian State University of Railway Transport, Structural Mechanics and Hydraulics DepartmentUkrainian State University of Railway Transport, Applied Mathematics DepartmentUkrainian State University of Railway Transport, Applied Mathematics DepartmentIn the current practice of construction and design of transport facilities, structures with external reinforcement are commonly used which effectively resist compression. The use of steel-concrete and composite structures enables us to reduce material consumption and cost of structures significantly. There are a few established approaches used to evaluate the load-bearing capacity of steel-concrete structures under axial and eccentric compression, each being based on the initial prerequisites, which underlie the calculation formulas. In this paper, the functional relationship of the value of the maximum load-bearing capacity of rectangular concrete-filled steel tubular (CFST) columns under axial compression with the random eccentricity is plotted. A regression model is proposed based on the methods of mathematical statistics, which allows for the evaluation of the impact of geometrical and physical characteristics of rectangular CFST columns on the value of their load-bearing capacity. The correspondence of the obtained model to the experimental data, as well as the significance of the regression parameters are confirmed by Fisher and Student criteria.https://doi.org/10.1051/matecconf/201823404002
collection DOAJ
language English
format Article
sources DOAJ
author Vatulia Glib
Orel Yevhen
Rezunenko Maryna
Panchenko Nataliia
spellingShingle Vatulia Glib
Orel Yevhen
Rezunenko Maryna
Panchenko Nataliia
Using statistical methods to determine the load-bearing capacity of rectangular CFST columns
MATEC Web of Conferences
author_facet Vatulia Glib
Orel Yevhen
Rezunenko Maryna
Panchenko Nataliia
author_sort Vatulia Glib
title Using statistical methods to determine the load-bearing capacity of rectangular CFST columns
title_short Using statistical methods to determine the load-bearing capacity of rectangular CFST columns
title_full Using statistical methods to determine the load-bearing capacity of rectangular CFST columns
title_fullStr Using statistical methods to determine the load-bearing capacity of rectangular CFST columns
title_full_unstemmed Using statistical methods to determine the load-bearing capacity of rectangular CFST columns
title_sort using statistical methods to determine the load-bearing capacity of rectangular cfst columns
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description In the current practice of construction and design of transport facilities, structures with external reinforcement are commonly used which effectively resist compression. The use of steel-concrete and composite structures enables us to reduce material consumption and cost of structures significantly. There are a few established approaches used to evaluate the load-bearing capacity of steel-concrete structures under axial and eccentric compression, each being based on the initial prerequisites, which underlie the calculation formulas. In this paper, the functional relationship of the value of the maximum load-bearing capacity of rectangular concrete-filled steel tubular (CFST) columns under axial compression with the random eccentricity is plotted. A regression model is proposed based on the methods of mathematical statistics, which allows for the evaluation of the impact of geometrical and physical characteristics of rectangular CFST columns on the value of their load-bearing capacity. The correspondence of the obtained model to the experimental data, as well as the significance of the regression parameters are confirmed by Fisher and Student criteria.
url https://doi.org/10.1051/matecconf/201823404002
work_keys_str_mv AT vatuliaglib usingstatisticalmethodstodeterminetheloadbearingcapacityofrectangularcfstcolumns
AT orelyevhen usingstatisticalmethodstodeterminetheloadbearingcapacityofrectangularcfstcolumns
AT rezunenkomaryna usingstatisticalmethodstodeterminetheloadbearingcapacityofrectangularcfstcolumns
AT panchenkonataliia usingstatisticalmethodstodeterminetheloadbearingcapacityofrectangularcfstcolumns
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