A comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperatures

A comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperatures

This paper reports the full-scale experimental measurements of temperature distribution over the surfaces of bridges' steel-concrete beams under the influence of positive and negative ambient temperatures. It has been established that the temperature is distributed unevenly along the vertical d...

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Main Authors: Vitalii Kovalchuk, Artur Onyshchenko, Olexander Fedorenko, Mykola Habrel, Bogdan Parneta, Oleh Voznyak, Ruslan Markul, Mariana Parneta, Roman Rybak
Format: Article
Language:English
Published: PC Technology Center 2021-04-01
Series:Eastern-European Journal of Enterprise Technologies
Subjects:
road bridge
reinforced concrete beam
temperature fields
temperature stresses
ambient temperature
Online Access:http://journals.uran.ua/eejet/article/view/228960
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spelling doaj-d7bde3659b8e43a2a720d1f00a8d7dbd2021-05-11T13:10:49ZengPC Technology CenterEastern-European Journal of Enterprise Technologies1729-37741729-40612021-04-0127 (110)233010.15587/1729-4061.2021.228960266514A comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperaturesVitalii Kovalchuk0https://orcid.org/0000-0003-4350-1756Artur Onyshchenko1https://orcid.org/0000-0002-1040-4530Olexander Fedorenko2https://orcid.org/0000-0002-3464-597XMykola Habrel3https://orcid.org/0000-0002-2514-9165Bogdan Parneta4https://orcid.org/0000-0002-2696-2449Oleh Voznyak5https://orcid.org/0000-0002-7163-9026Ruslan Markul6https://orcid.org/0000-0002-7630-8963Mariana Parneta7https://orcid.org/0000-0001-9459-3676Roman Rybak8https://orcid.org/0000-0002-0745-6620National Transport UniversityNational Transport UniversityKyivavtodor Municipal CorporationLviv Polytechnic National UniversityLviv Polytechnic National UniversityLviv Branch of the Dnipro National University of Railway Transport named after academician V. LazaryanDnipro National University of Railway Transport named after Academician V. LazaryanLviv Polytechnic National UniversityLviv Polytechnic National UniversityThis paper reports the full-scale experimental measurements of temperature distribution over the surfaces of bridges' steel-concrete beams under the influence of positive and negative ambient temperatures. It has been established that the temperature is distributed unevenly along the vertical direction of a bridge's steel-concrete beam. It was found that the metal beam accepted higher temperature values. The maximum registered temperature difference between a metal beam and a reinforced concrete slab at positive ambient temperatures was +9.0 °C, and the minimum temperature difference was −2.1 °C. The mathematical models for calculating a temperature field and a thermally strained state of bridges' steel-concrete beams under the influence of variable climatic temperature changes in the environment have been improved, taking into consideration the uneven temperature distribution across a bridge's reinforced concrete beam. The possibility has been established to consider a one-dimensional problem or to apply the three-dimensional estimated problem schemes as the estimation schemes for determining the thermo-elastic state of reinforced concrete bridges. The temperature field and the stressed state of bridges' reinforced concrete beams were determined. It was found that the maximum stresses arise at the place where a metal beam meets a reinforced concrete slab. These stresses amount to 73.4 MPa at positive ambient temperatures, and 69.3 MPa at negative ambient temperatures. The amount of stresses is up to 35 % of the permissible stress values. The overall stressed-strained state of a bridge's reinforced concrete beams should be assessed at the joint action of temperature-induced climatic influences and loads from moving vehicleshttp://journals.uran.ua/eejet/article/view/228960road bridgereinforced concrete beamtemperature fieldstemperature stressesambient temperature
collection DOAJ
language English
format Article
sources DOAJ
author Vitalii Kovalchuk
Artur Onyshchenko
Olexander Fedorenko
Mykola Habrel
Bogdan Parneta
Oleh Voznyak
Ruslan Markul
Mariana Parneta
Roman Rybak
spellingShingle Vitalii Kovalchuk
Artur Onyshchenko
Olexander Fedorenko
Mykola Habrel
Bogdan Parneta
Oleh Voznyak
Ruslan Markul
Mariana Parneta
Roman Rybak
A comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperatures
Eastern-European Journal of Enterprise Technologies
road bridge
reinforced concrete beam
temperature fields
temperature stresses
ambient temperature
author_facet Vitalii Kovalchuk
Artur Onyshchenko
Olexander Fedorenko
Mykola Habrel
Bogdan Parneta
Oleh Voznyak
Ruslan Markul
Mariana Parneta
Roman Rybak
author_sort Vitalii Kovalchuk
title A comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperatures
title_short A comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperatures
title_full A comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperatures
title_fullStr A comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperatures
title_full_unstemmed A comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperatures
title_sort comprehensive procedure for estimating the stressed-strained state of a reinforced concrete bridge under the action of variable environmental temperatures
publisher PC Technology Center
series Eastern-European Journal of Enterprise Technologies
issn 1729-3774
1729-4061
publishDate 2021-04-01
description This paper reports the full-scale experimental measurements of temperature distribution over the surfaces of bridges' steel-concrete beams under the influence of positive and negative ambient temperatures. It has been established that the temperature is distributed unevenly along the vertical direction of a bridge's steel-concrete beam. It was found that the metal beam accepted higher temperature values. The maximum registered temperature difference between a metal beam and a reinforced concrete slab at positive ambient temperatures was +9.0 °C, and the minimum temperature difference was −2.1 °C. The mathematical models for calculating a temperature field and a thermally strained state of bridges' steel-concrete beams under the influence of variable climatic temperature changes in the environment have been improved, taking into consideration the uneven temperature distribution across a bridge's reinforced concrete beam. The possibility has been established to consider a one-dimensional problem or to apply the three-dimensional estimated problem schemes as the estimation schemes for determining the thermo-elastic state of reinforced concrete bridges. The temperature field and the stressed state of bridges' reinforced concrete beams were determined. It was found that the maximum stresses arise at the place where a metal beam meets a reinforced concrete slab. These stresses amount to 73.4 MPa at positive ambient temperatures, and 69.3 MPa at negative ambient temperatures. The amount of stresses is up to 35 % of the permissible stress values. The overall stressed-strained state of a bridge's reinforced concrete beams should be assessed at the joint action of temperature-induced climatic influences and loads from moving vehicles
topic road bridge
reinforced concrete beam
temperature fields
temperature stresses
ambient temperature
url http://journals.uran.ua/eejet/article/view/228960
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