Experimental studies of NiTi self-expanding stent designs”
Experimental studies of NiTi self-expanding stent designs”
Preliminary investigations to apply thermoelastic stress analysis (TSA) to Nitinol self-expanding stents are described. Tests conducted at high resolution indicated that a viable thermoelastic signal can be obtained from the fine stent structure. It is shown that it is possible to digitally compensate for errors arising from motion at this high resolution. High variability in Nitinol’s material properties with stress and temperature result in a complex thermoelastic response. Correction strategies are proposed to account for variation in material properties and to minimize errors due to thermal variations in order to derive calibration factors for the austenite and martensite material phases. The greatest challenge is identified as calibrating the thermoelastic response from the radially loaded stent structure where it is likely the material is highly inhomogeneous
Nitinol, thermoelastic stress analysis, stent
JAI100388 [12pp]
Eaton-Evans, J.
a859e78d-28fe-4c6e-b662-9a59b65c27b8
Dulieu-Barton, J.M.
9e35bebb-2185-4d16-a1bc-bb8f20e06632
Little, E
1b872fe4-1ddc-4d63-8792-f97ffb4d9493
Brown, I.A.
376be713-bd0f-4353-844a-baee084af814
2006
Eaton-Evans, J.
a859e78d-28fe-4c6e-b662-9a59b65c27b8
Dulieu-Barton, J.M.
9e35bebb-2185-4d16-a1bc-bb8f20e06632
Little, E
1b872fe4-1ddc-4d63-8792-f97ffb4d9493
Brown, I.A.
376be713-bd0f-4353-844a-baee084af814
Eaton-Evans, J., Dulieu-Barton, J.M., Little, E and Brown, I.A.
(2006)
Experimental studies of NiTi self-expanding stent designs”.
Journal of ASTM International, 3 (9), .
(doi:10.1520/JAI100388).
Abstract
Preliminary investigations to apply thermoelastic stress analysis (TSA) to Nitinol self-expanding stents are described. Tests conducted at high resolution indicated that a viable thermoelastic signal can be obtained from the fine stent structure. It is shown that it is possible to digitally compensate for errors arising from motion at this high resolution. High variability in Nitinol’s material properties with stress and temperature result in a complex thermoelastic response. Correction strategies are proposed to account for variation in material properties and to minimize errors due to thermal variations in order to derive calibration factors for the austenite and martensite material phases. The greatest challenge is identified as calibrating the thermoelastic response from the radially loaded stent structure where it is likely the material is highly inhomogeneous
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Submitted date: 11 October 2005
Published date: 2006
Keywords:
Nitinol, thermoelastic stress analysis, stent
Organisations:
Fluid Structure Interactions Group
Identifiers
Local EPrints ID: 41248
URI: http://eprints.soton.ac.uk/id/eprint/41248
ISSN: 1546-962X
PURE UUID: e0867994-9d34-442e-8cef-5c9e0c506d6e
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Date deposited: 09 Aug 2006
Last modified: 15 Mar 2024 08:26
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Author:
J. Eaton-Evans
Author:
E Little
Author:
I.A. Brown
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