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Quantitative measurement of the stresses induced during polymerisation of bone cement

Quantitative measurement of the stresses induced during polymerisation of bone cement
Quantitative measurement of the stresses induced during polymerisation of bone cement
When bone cement cures, residual stresses due to bulk and thermal shrinkage will result. Present finite element (FE) simulations of implanted constructs often do not account for these stresses as an initial condition; this may lead to overestimations of the fatigue life of the cement. In the present study, an instrumented stem equipped with strain gauges and a thermocouple was employed to experimentally quantify the residual stresses induced as a result of bone cement curing within a simulated bone/cement/stem construct. Residual stresses as high as 10 MPa were observed in the cement mantle. Residual stresses of this magnitude are potentially high enough to initiate damage within the cement mantle or at the stem/cement interface immediately post-implantation. The acoustic emission technique has demonstrated that cracking and sliding mechanisms are occurring during curing, resulting in partial relaxation of these stresses. The implications for FE simulations of the implanted construct are discussed.
bone cement, residual stress, experimental
0142-9612
4415-4424
Roques, A.
311a1a36-4a32-4d0a-b46e-a8cbf7c65b92
Browne, M.
6578cc37-7bd6-43b9-ae5c-77ccb7726397
Taylor, A.
39974814-4868-4c73-a3fa-2adfa4be3e46
New, A.
d2fbaf80-3abd-4bc5-ae36-9c77dfdde0d6
Baker, D.
9d6d6689-b939-4ccb-a3a1-c9992503b3bc
Roques, A.
311a1a36-4a32-4d0a-b46e-a8cbf7c65b92
Browne, M.
6578cc37-7bd6-43b9-ae5c-77ccb7726397
Taylor, A.
39974814-4868-4c73-a3fa-2adfa4be3e46
New, A.
d2fbaf80-3abd-4bc5-ae36-9c77dfdde0d6
Baker, D.
9d6d6689-b939-4ccb-a3a1-c9992503b3bc

Roques, A., Browne, M., Taylor, A., New, A. and Baker, D. (2004) Quantitative measurement of the stresses induced during polymerisation of bone cement. Biomaterials, 25 (18), 4415-4424. (doi:10.1016/j.biomaterials.2003.11.009).

Record type: Article

Abstract

When bone cement cures, residual stresses due to bulk and thermal shrinkage will result. Present finite element (FE) simulations of implanted constructs often do not account for these stresses as an initial condition; this may lead to overestimations of the fatigue life of the cement. In the present study, an instrumented stem equipped with strain gauges and a thermocouple was employed to experimentally quantify the residual stresses induced as a result of bone cement curing within a simulated bone/cement/stem construct. Residual stresses as high as 10 MPa were observed in the cement mantle. Residual stresses of this magnitude are potentially high enough to initiate damage within the cement mantle or at the stem/cement interface immediately post-implantation. The acoustic emission technique has demonstrated that cracking and sliding mechanisms are occurring during curing, resulting in partial relaxation of these stresses. The implications for FE simulations of the implanted construct are discussed.

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Published date: 2004
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Keywords: bone cement, residual stress, experimental
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Identifiers

Local EPrints ID: 22721
URI: http://eprints.soton.ac.uk/id/eprint/22721
DOI: doi:10.1016/j.biomaterials.2003.11.009
ISSN: 0142-9612
PURE UUID: b4c3a1c0-5ff4-425a-8629-228d5970bd48
ORCID for M. Browne: ORCID iD orcid.org/0000-0001-5184-050X

Catalogue record

Date deposited: 22 Mar 2006
Last modified: 16 Mar 2024 02:51

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Contributors

Author: A. Roques
Author: M. Browne ORCID iD
Author: A. Taylor
Author: A. New
Author: D. Baker

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