A Numerical Analysis of the Resistance and Stiffness of the Aluminium and Concrete Composite Beam

In this paper a numerical analysis of the resistance and stiffness of the aluminium and concrete composite beam is presented. Composite aluminium and concrete structures are quite new and they have not been thoroughly tested. Composite structures have a lot of advantages. The composite aluminium and...

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Main Authors: Polus Łukasz, Szumigała Maciej
Format: Article
Language:English
Published: Sciendo 2015-03-01
Series:Civil and Environmental Engineering Reports
Subjects:
Online Access:https://doi.org/10.1515/ceer-2014-0037
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spelling doaj-cdb615c407bc4c14b45f8797cc01e8872021-09-06T19:19:30ZengSciendoCivil and Environmental Engineering Reports2080-51872450-85942015-03-011549911210.1515/ceer-2014-0037ceer-2014-0037A Numerical Analysis of the Resistance and Stiffness of the Aluminium and Concrete Composite BeamPolus Łukasz0Szumigała Maciej1Poznan University of Technology, Institute of Structural Engineering, PolandPoznan University of Technology, Institute of Structural Engineering, PolandIn this paper a numerical analysis of the resistance and stiffness of the aluminium and concrete composite beam is presented. Composite aluminium and concrete structures are quite new and they have not been thoroughly tested. Composite structures have a lot of advantages. The composite aluminium and concrete beam is more corrosion-resistant, fire-resistant and stiff than the aluminium beam. The contemporary idea of sustainable buildings relies on new solutions which are more environmentally friendly. Aluminium is lighter and more resistant to corrosion than steel, which is often used in composite structures.https://doi.org/10.1515/ceer-2014-0037composite aluminium and concrete beamnumerical analysis
collection DOAJ
language English
format Article
sources DOAJ
author Polus Łukasz
Szumigała Maciej
spellingShingle Polus Łukasz
Szumigała Maciej
A Numerical Analysis of the Resistance and Stiffness of the Aluminium and Concrete Composite Beam
Civil and Environmental Engineering Reports
composite aluminium and concrete beam
numerical analysis
author_facet Polus Łukasz
Szumigała Maciej
author_sort Polus Łukasz
title A Numerical Analysis of the Resistance and Stiffness of the Aluminium and Concrete Composite Beam
title_short A Numerical Analysis of the Resistance and Stiffness of the Aluminium and Concrete Composite Beam
title_full A Numerical Analysis of the Resistance and Stiffness of the Aluminium and Concrete Composite Beam
title_fullStr A Numerical Analysis of the Resistance and Stiffness of the Aluminium and Concrete Composite Beam
title_full_unstemmed A Numerical Analysis of the Resistance and Stiffness of the Aluminium and Concrete Composite Beam
title_sort numerical analysis of the resistance and stiffness of the aluminium and concrete composite beam
publisher Sciendo
series Civil and Environmental Engineering Reports
issn 2080-5187
2450-8594
publishDate 2015-03-01
description In this paper a numerical analysis of the resistance and stiffness of the aluminium and concrete composite beam is presented. Composite aluminium and concrete structures are quite new and they have not been thoroughly tested. Composite structures have a lot of advantages. The composite aluminium and concrete beam is more corrosion-resistant, fire-resistant and stiff than the aluminium beam. The contemporary idea of sustainable buildings relies on new solutions which are more environmentally friendly. Aluminium is lighter and more resistant to corrosion than steel, which is often used in composite structures.
topic composite aluminium and concrete beam
numerical analysis
url https://doi.org/10.1515/ceer-2014-0037
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AT polusłukasz numericalanalysisoftheresistanceandstiffnessofthealuminiumandconcretecompositebeam
AT szumigałamaciej numericalanalysisoftheresistanceandstiffnessofthealuminiumandconcretecompositebeam
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