Pedestrians struck by a vehicle frequently sustain lower limb injuries. Moreover, the biomechanics of the lower limb under lateral impact influences the trajectory of the pedestrian and subsequent injuries to the pelvis, thorax, and head. In order to increase the understanding of injury mechanisms in the lower limb, a finite element (FE) model of the lower limb was developed. The geometry of the bones and flesh was originally obtained from the Visible Human Project Database and was scaled to a 50th percentile male. The geometry of the knee ligaments was originally obtained from the 3D-CAD-Browser Database and was scaled according to the published anatomical data to align with the bones and the corresponding insertion sites. The FE mesh consists mostly of hexahedral elements which was developed using a structural mesh generator. The material and failure properties were initially selected from the literature and were later tuned based on the validation tests. The FE model was validated using the literature data and several cadaveric component tests performed specifically for model development and evaluation. The validation tests included quasi-static and dynamic lateral three-point-bend tests of the femur and the leg with flesh, and lateral four-point-bend tests of the knee joint.
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ASME 2004 International Mechanical Engineering Congress and Exposition
November 13–19, 2004
Anaheim, California, USA
Conference Sponsors:
- Transportation
ISBN:
0-7918-4722-5
PROCEEDINGS PAPER
Development and Validation of a Finite Element Model of the Lower Limb
Bing Deng,
Bing Deng
General Motors Research & Development
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J. T. Wang
J. T. Wang
General Motors Research & Development
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Costin Untaroiu
University of Virginia
Kurosh Darvish
University of Virginia
Jeff Crandall
University of Virginia
Bing Deng
General Motors Research & Development
J. T. Wang
General Motors Research & Development
Paper No:
IMECE2004-61583, pp. 53-62; 10 pages
Published Online:
March 24, 2008
Citation
Untaroiu, C, Darvish, K, Crandall, J, Deng, B, & Wang, JT. "Development and Validation of a Finite Element Model of the Lower Limb." Proceedings of the ASME 2004 International Mechanical Engineering Congress and Exposition. Transportation: Transportation and Environment. Anaheim, California, USA. November 13–19, 2004. pp. 53-62. ASME. https://doi.org/10.1115/IMECE2004-61583
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