Intermediate strain rate behaviour of cancellous bone: Links between microstructural and mechanical properties

Intermediate strain rate behaviour of cancellous bone: Links between microstructural and mechanical properties

Relationships between the micro-architecture description of cancellous bone, obtained from medical imaging, and its mechanical properties can be used to assess the compression fracture risk at high and low strain rate. This study extends the rupture prediction to the intermediate strain rate regime....

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Main Authors: Prot Marianne, Cloete Trevor, Saletti Dominique, Laporte Sebastien
Format: Article
Language:English
Published: EDP Sciences 2015-01-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20159403006
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spelling doaj-fc26b8c649c3427eb03f87939251c5eb2021-08-02T01:38:23ZengEDP SciencesEPJ Web of Conferences2100-014X2015-01-01940300610.1051/epjconf/20159403006epjconf-dymat2015_03006Intermediate strain rate behaviour of cancellous bone: Links between microstructural and mechanical propertiesProt Marianne0Cloete Trevor1Saletti DominiqueLaporte Sebastien2LBM/Institut de Biomécanique Humaine Georges Charpak, Arts et Métiers ParisTechBlast Impact and Survivability Research Unit (BISRU), Department of Mechanical Engineering, University of, Cape Town (UCT)LBM/Institut de Biomécanique Humaine Georges Charpak, Arts et Métiers ParisTechRelationships between the micro-architecture description of cancellous bone, obtained from medical imaging, and its mechanical properties can be used to assess the compression fracture risk at high and low strain rate. This study extends the rupture prediction to the intermediate strain rate regime. The micro-architecture description was obtained with a CT-scan, for which geometry, topology, connectivity and anisotropy parameters were computed and compared to mechanical identified parameters in order to confirm their usefulness. Three strain rates were investigated: 1/s, 10/s and 100/s using two different devices: a Wedge-Bar apparatus and a conventional split Hopkinson pressure bar implemented with a Cone-in-Tube striker and a tandem momentum trap. This setup provides a constant strain rate loading with routine specimen recovery allowing the fracture zone to be investigated. This study reveals that a transition in the response behaviour occurred in the intermediate regime and confirms the significant porous organization influence through the regimes.http://dx.doi.org/10.1051/epjconf/20159403006
collection DOAJ
language English
format Article
sources DOAJ
author Prot Marianne
Cloete Trevor
Saletti Dominique
Laporte Sebastien
spellingShingle Prot Marianne
Cloete Trevor
Saletti Dominique
Laporte Sebastien
Intermediate strain rate behaviour of cancellous bone: Links between microstructural and mechanical properties
EPJ Web of Conferences
author_facet Prot Marianne
Cloete Trevor
Saletti Dominique
Laporte Sebastien
author_sort Prot Marianne
title Intermediate strain rate behaviour of cancellous bone: Links between microstructural and mechanical properties
title_short Intermediate strain rate behaviour of cancellous bone: Links between microstructural and mechanical properties
title_full Intermediate strain rate behaviour of cancellous bone: Links between microstructural and mechanical properties
title_fullStr Intermediate strain rate behaviour of cancellous bone: Links between microstructural and mechanical properties
title_full_unstemmed Intermediate strain rate behaviour of cancellous bone: Links between microstructural and mechanical properties
title_sort intermediate strain rate behaviour of cancellous bone: links between microstructural and mechanical properties
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2015-01-01
description Relationships between the micro-architecture description of cancellous bone, obtained from medical imaging, and its mechanical properties can be used to assess the compression fracture risk at high and low strain rate. This study extends the rupture prediction to the intermediate strain rate regime. The micro-architecture description was obtained with a CT-scan, for which geometry, topology, connectivity and anisotropy parameters were computed and compared to mechanical identified parameters in order to confirm their usefulness. Three strain rates were investigated: 1/s, 10/s and 100/s using two different devices: a Wedge-Bar apparatus and a conventional split Hopkinson pressure bar implemented with a Cone-in-Tube striker and a tandem momentum trap. This setup provides a constant strain rate loading with routine specimen recovery allowing the fracture zone to be investigated. This study reveals that a transition in the response behaviour occurred in the intermediate regime and confirms the significant porous organization influence through the regimes.
url http://dx.doi.org/10.1051/epjconf/20159403006
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AT cloetetrevor intermediatestrainratebehaviourofcancellousbonelinksbetweenmicrostructuralandmechanicalproperties
AT salettidominique intermediatestrainratebehaviourofcancellousbonelinksbetweenmicrostructuralandmechanicalproperties
AT laportesebastien intermediatestrainratebehaviourofcancellousbonelinksbetweenmicrostructuralandmechanicalproperties
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