Influence of Foundation Quality on the Stress in the Elements of Steel Façade Scaffolding

Influence of Foundation Quality on the Stress in the Elements of Steel Façade Scaffolding

The purpose of this paper is to show the influence of incorrect scaffolding foundations on the stress in their elements. Static stress analysis was performed for exemplary steel façade scaffolding. The scaffolding was formed using the Plettac 70 system and was composed of 16 modules and 13 working l...

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Main Authors: Ewa Błazik-Borowa, Paulina Jamińska-Gadomska, Michał Pieńko
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Buildings
Subjects:
scaffolding
subsoil
foundation
static analysis
structural safety
Online Access:https://www.mdpi.com/2075-5309/10/7/130
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spelling doaj-13b49e90ad634fac9d169c6de2cc96702020-11-25T03:16:41ZengMDPI AGBuildings2075-53092020-07-011013013010.3390/buildings10070130Influence of Foundation Quality on the Stress in the Elements of Steel Façade ScaffoldingEwa Błazik-Borowa0Paulina Jamińska-Gadomska1Michał Pieńko2Department of Structural Mechanics, Faculty of Civil Engineering and Architecture, Lublin University of Technology, 20-618 Lublin, PolandDepartment of Structural Mechanics, Faculty of Civil Engineering and Architecture, Lublin University of Technology, 20-618 Lublin, PolandDepartment of Structural Mechanics, Faculty of Civil Engineering and Architecture, Lublin University of Technology, 20-618 Lublin, PolandThe purpose of this paper is to show the influence of incorrect scaffolding foundations on the stress in their elements. Static stress analysis was performed for exemplary steel façade scaffolding. The scaffolding was formed using the Plettac 70 system and was composed of 16 modules and 13 working levels. The total dimensions of the scaffolding were 45.0 × 26.36 × 0.74 m. The scaffolding was set up partly on concrete and partly on a created ground classified as coarse sand with discontinuous graining. The boundary conditions modelling the foundation considered the heterogeneity of the ground both along the scaffolding and in the direction perpendicular to the façade. The effect of uneven subsidence on the scaffolding frames was checked, adopting a constant stiffness of 3500 kN/m in half of the supports, while in the rest of them the stiffness varied from 35 to 3500 kN/m. Due to additional bending moments, normal stresses in stands and transoms of the frames increased. Incorrect scaffolding foundation has the greatest negative effect on normal forces in anchors and bracings. Because these elements are responsible for the stability of the scaffolding, their damage may result in scaffolding failure and would certainly lead to a reduction of the values of free vibration frequencies, thus resulting in the discomfort of the workers on the scaffolding and a lack of safety.https://www.mdpi.com/2075-5309/10/7/130scaffoldingsubsoilfoundationstatic analysisstructural safety
collection DOAJ
language English
format Article
sources DOAJ
author Ewa Błazik-Borowa
Paulina Jamińska-Gadomska
Michał Pieńko
spellingShingle Ewa Błazik-Borowa
Paulina Jamińska-Gadomska
Michał Pieńko
Influence of Foundation Quality on the Stress in the Elements of Steel Façade Scaffolding
Buildings
scaffolding
subsoil
foundation
static analysis
structural safety
author_facet Ewa Błazik-Borowa
Paulina Jamińska-Gadomska
Michał Pieńko
author_sort Ewa Błazik-Borowa
title Influence of Foundation Quality on the Stress in the Elements of Steel Façade Scaffolding
title_short Influence of Foundation Quality on the Stress in the Elements of Steel Façade Scaffolding
title_full Influence of Foundation Quality on the Stress in the Elements of Steel Façade Scaffolding
title_fullStr Influence of Foundation Quality on the Stress in the Elements of Steel Façade Scaffolding
title_full_unstemmed Influence of Foundation Quality on the Stress in the Elements of Steel Façade Scaffolding
title_sort influence of foundation quality on the stress in the elements of steel façade scaffolding
publisher MDPI AG
series Buildings
issn 2075-5309
publishDate 2020-07-01
description The purpose of this paper is to show the influence of incorrect scaffolding foundations on the stress in their elements. Static stress analysis was performed for exemplary steel façade scaffolding. The scaffolding was formed using the Plettac 70 system and was composed of 16 modules and 13 working levels. The total dimensions of the scaffolding were 45.0 × 26.36 × 0.74 m. The scaffolding was set up partly on concrete and partly on a created ground classified as coarse sand with discontinuous graining. The boundary conditions modelling the foundation considered the heterogeneity of the ground both along the scaffolding and in the direction perpendicular to the façade. The effect of uneven subsidence on the scaffolding frames was checked, adopting a constant stiffness of 3500 kN/m in half of the supports, while in the rest of them the stiffness varied from 35 to 3500 kN/m. Due to additional bending moments, normal stresses in stands and transoms of the frames increased. Incorrect scaffolding foundation has the greatest negative effect on normal forces in anchors and bracings. Because these elements are responsible for the stability of the scaffolding, their damage may result in scaffolding failure and would certainly lead to a reduction of the values of free vibration frequencies, thus resulting in the discomfort of the workers on the scaffolding and a lack of safety.
topic scaffolding
subsoil
foundation
static analysis
structural safety
url https://www.mdpi.com/2075-5309/10/7/130
work_keys_str_mv AT ewabłazikborowa influenceoffoundationqualityonthestressintheelementsofsteelfacadescaffolding
AT paulinajaminskagadomska influenceoffoundationqualityonthestressintheelementsofsteelfacadescaffolding
AT michałpienko influenceoffoundationqualityonthestressintheelementsofsteelfacadescaffolding
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