Experimental and Numerical Assessment of Flexural and Shear Behavior of Precast Prestressed Deep Hollow-Core Slabs

Experimental and Numerical Assessment of Flexural and Shear Behavior of Precast Prestressed Deep Hollow-Core Slabs

Abstract The paper presents the results of flexural and shear tests up to failure on full-scale hollow-core slabs (HCS) having a depth of 500 mm. A detailed non-linear 2D finite element model is also developed to predict the stress distribution and crack pattern within the slabs, providing a well ma...

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Bibliographic Details
Main Authors: E. Michelini, P. Bernardi, R. Cerioni, B. Belletti
Format: Article
Language:English
Published: SpringerOpen 2020-07-01
Series:International Journal of Concrete Structures and Materials
Subjects:
hollow-core slabs
prestressed concrete
precast concrete
full-scale tests
non-linear finite element analysis
cracking
Online Access:http://link.springer.com/article/10.1186/s40069-020-00407-y
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spelling doaj-8c0e0080c138435cb54ded5145ede2fc2020-11-25T03:24:09ZengSpringerOpenInternational Journal of Concrete Structures and Materials1976-04852234-13152020-07-0114111710.1186/s40069-020-00407-yExperimental and Numerical Assessment of Flexural and Shear Behavior of Precast Prestressed Deep Hollow-Core SlabsE. Michelini0P. Bernardi1R. Cerioni2B. Belletti3Department of Engineering and Architecture, University of ParmaDepartment of Engineering and Architecture, University of ParmaDepartment of Engineering and Architecture, University of ParmaDepartment of Engineering and Architecture, University of ParmaAbstract The paper presents the results of flexural and shear tests up to failure on full-scale hollow-core slabs (HCS) having a depth of 500 mm. A detailed non-linear 2D finite element model is also developed to predict the stress distribution and crack pattern within the slabs, providing a well match with experimental results. Experimental and numerical results are compared with analytical calculations provided by Product Standard EN 1168, highlighting the inaccuracy of technical regulations in predicting shear behavior. The proposed numerical procedure is instead viable and sound for the design and the strength assessment of HCS, and can be extended easily to the analysis of whole floor systems.http://link.springer.com/article/10.1186/s40069-020-00407-yhollow-core slabsprestressed concreteprecast concretefull-scale testsnon-linear finite element analysiscracking
collection DOAJ
language English
format Article
sources DOAJ
author E. Michelini
P. Bernardi
R. Cerioni
B. Belletti
spellingShingle E. Michelini
P. Bernardi
R. Cerioni
B. Belletti
Experimental and Numerical Assessment of Flexural and Shear Behavior of Precast Prestressed Deep Hollow-Core Slabs
International Journal of Concrete Structures and Materials
hollow-core slabs
prestressed concrete
precast concrete
full-scale tests
non-linear finite element analysis
cracking
author_facet E. Michelini
P. Bernardi
R. Cerioni
B. Belletti
author_sort E. Michelini
title Experimental and Numerical Assessment of Flexural and Shear Behavior of Precast Prestressed Deep Hollow-Core Slabs
title_short Experimental and Numerical Assessment of Flexural and Shear Behavior of Precast Prestressed Deep Hollow-Core Slabs
title_full Experimental and Numerical Assessment of Flexural and Shear Behavior of Precast Prestressed Deep Hollow-Core Slabs
title_fullStr Experimental and Numerical Assessment of Flexural and Shear Behavior of Precast Prestressed Deep Hollow-Core Slabs
title_full_unstemmed Experimental and Numerical Assessment of Flexural and Shear Behavior of Precast Prestressed Deep Hollow-Core Slabs
title_sort experimental and numerical assessment of flexural and shear behavior of precast prestressed deep hollow-core slabs
publisher SpringerOpen
series International Journal of Concrete Structures and Materials
issn 1976-0485
2234-1315
publishDate 2020-07-01
description Abstract The paper presents the results of flexural and shear tests up to failure on full-scale hollow-core slabs (HCS) having a depth of 500 mm. A detailed non-linear 2D finite element model is also developed to predict the stress distribution and crack pattern within the slabs, providing a well match with experimental results. Experimental and numerical results are compared with analytical calculations provided by Product Standard EN 1168, highlighting the inaccuracy of technical regulations in predicting shear behavior. The proposed numerical procedure is instead viable and sound for the design and the strength assessment of HCS, and can be extended easily to the analysis of whole floor systems.
topic hollow-core slabs
prestressed concrete
precast concrete
full-scale tests
non-linear finite element analysis
cracking
url http://link.springer.com/article/10.1186/s40069-020-00407-y
work_keys_str_mv AT emichelini experimentalandnumericalassessmentofflexuralandshearbehaviorofprecastprestresseddeephollowcoreslabs
AT pbernardi experimentalandnumericalassessmentofflexuralandshearbehaviorofprecastprestresseddeephollowcoreslabs
AT rcerioni experimentalandnumericalassessmentofflexuralandshearbehaviorofprecastprestresseddeephollowcoreslabs
AT bbelletti experimentalandnumericalassessmentofflexuralandshearbehaviorofprecastprestresseddeephollowcoreslabs
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