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Real-time microdamage and strain detection during micromechanical testing of single trabeculae

Real-time microdamage and strain detection during micromechanical testing of single trabeculae
Real-time microdamage and strain detection during micromechanical testing of single trabeculae
For the assessment of local deformations, we recently combined mechanical testing of trabecular bone with high-speed photography. In a previous study on cuboids of human vertebral trabecular bone we found strained trabeculae to whiten, and scanning electron microscopy showed excessive microdamage in whitened zones. In the presented study we tested single trabeculae from bovine femur and tibia in a three-point-bending geometry. Whitening was detected in the form of an ellipsoid zone on the tension side on tested trabeculae. Upon crack formation the whitening fades and a whitened zone following the propagating crack tip can be seen In addition to whitening/microdamage assessment we use ink marks applied to the samples and a modified digital image correlation to obtain the local strains involved in whitening and formation. In the presented loading case the tensile strain along the long axis of the trabecula qualitatively correlates best with the whitening zones seen. Whitening and thus microdamage initiates around a local tensile strain of 3%, whereas crack initiation occurs at strains around 13%. Our results allow for the first time to correlate microdamage and local strains directly, which is direly needed for the development of realistic damage models used in finite element analyses.
9781604232226
Curran Associates, Inc.
Jungmann, Ralf
cd390b50-a216-4b0c-b205-76d4ee984594
Schitter, Georg
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Fantner, Georg E.
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Lauer, Matthias E.
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Hansma, Paul K.
aeab95c4-0f23-4690-8302-72db3316215d
Thurner, Philipp J.
ab711ddd-784e-48de-aaad-f56aec40f84f
Jungmann, Ralf
cd390b50-a216-4b0c-b205-76d4ee984594
Schitter, Georg
a75aafc7-0804-4bbc-a2ee-792a17aed5fa
Fantner, Georg E.
e95e5469-568d-4c76-843c-bb8a4f6153df
Lauer, Matthias E.
198f87a7-7441-4cd3-afaa-425d4be045a9
Hansma, Paul K.
aeab95c4-0f23-4690-8302-72db3316215d
Thurner, Philipp J.
ab711ddd-784e-48de-aaad-f56aec40f84f

Jungmann, Ralf, Schitter, Georg, Fantner, Georg E., Lauer, Matthias E., Hansma, Paul K. and Thurner, Philipp J. (2007) Real-time microdamage and strain detection during micromechanical testing of single trabeculae. In Experimental and Applied Mechanics: SEM Annual Conference and Exposition 2007 (3 Vols). Curran Associates, Inc. 11 pp .

Record type: Conference or Workshop Item (Paper)

Abstract

For the assessment of local deformations, we recently combined mechanical testing of trabecular bone with high-speed photography. In a previous study on cuboids of human vertebral trabecular bone we found strained trabeculae to whiten, and scanning electron microscopy showed excessive microdamage in whitened zones. In the presented study we tested single trabeculae from bovine femur and tibia in a three-point-bending geometry. Whitening was detected in the form of an ellipsoid zone on the tension side on tested trabeculae. Upon crack formation the whitening fades and a whitened zone following the propagating crack tip can be seen In addition to whitening/microdamage assessment we use ink marks applied to the samples and a modified digital image correlation to obtain the local strains involved in whitening and formation. In the presented loading case the tensile strain along the long axis of the trabecula qualitatively correlates best with the whitening zones seen. Whitening and thus microdamage initiates around a local tensile strain of 3%, whereas crack initiation occurs at strains around 13%. Our results allow for the first time to correlate microdamage and local strains directly, which is direly needed for the development of realistic damage models used in finite element analyses.

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Published date: August 2007
Venue - Dates: Annual Meeting of the Society for Experimental Mechanics (SEM 2007), Springfield, USA, 2007-06-03 - 2007-06-06
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Identifiers

Local EPrints ID: 49046
URI: http://eprints.soton.ac.uk/id/eprint/49046
ISBN: 9781604232226
PURE UUID: 2e7688de-4774-432e-8e53-c822d79bc4f4
ORCID for Philipp J. Thurner: ORCID iD orcid.org/0000-0001-7588-9041

Catalogue record

Date deposited: 22 Oct 2007
Last modified: 15 Mar 2024 09:52

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Contributors

Author: Ralf Jungmann
Author: Georg Schitter
Author: Georg E. Fantner
Author: Matthias E. Lauer
Author: Paul K. Hansma
Author: Philipp J. Thurner ORCID iD

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