Technical noteDevelopment and validation of a series of three-dimensional finite element models of the equine metacarpus
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Accuracy Quantification of the Reverse Engineering and High-Order Finite Element Analysis of Equine MC3 Forelimb
2019, Journal of Equine Veterinary ScienceCitation Excerpt :A similar process was discussed as an application of reverse engineering methods to reconstruct the human femur [26]. Several studies have been conducted on 3D modeling and stress distribution in the equine MC3 and surrounding structures [45–50]. An essential part of an FEA should be dedicated to convergence and error analysis before publishing the results.
Analysis of strength and failure pattern of human proximal femur using quantitative computed tomography (QCT)-based finite element method
2014, BoneCitation Excerpt :Although this might be a source of error, it did not result in a significant deviation of FEA results from experiments. Moreover, the lack of a thoroughly validated failure theory for bone, and the findings of Keyak et al. [21,22], indicates that accounting for this difference will not necessarily increase the accuracy of finite element simulations. Although the focus of the current study was on determination of the ultimate failure strength, we believe that by implementation of more sophisticated assortments of critical elements, it might be possible to predict other characteristic loads, like the onset of the overall nonlinear behavior using linear analysis.
Craniofacial biomechanics and functional and dietary inferences in hominin paleontology
2010, Journal of Human EvolutionCitation Excerpt :With development of experimental technologies such as 3D speckle interferometry and stereophotogrammetry, full field strains can be visualized experimentally to provide robust tests of finite element models (Siggelkow et al., 2004; Fritton et al., 2009). Skeletal researchers have also imposed high standards of validation by comparing model output to strain gauge data from multiple sites on modeled specimens (Les et al., 1997; Remmler et al., 1998; Taddei et al., 2006; Kupczik et al., 2007). These studies have shown that strong correlations (e.g., r2 ≈ 0.90) between model-generated and observed strains are possible, but correlation by itself is only a partial validation.
Risk of failure during gait for direct skeletal attachment of a femoral prosthesis: A finite element study
2009, Medical Engineering and PhysicsA modified method for assigning material properties to FE models of bones
2008, Medical Engineering and PhysicsSemiautomated finite element mesh generation methods for a long bone
2007, Computer Methods and Programs in Biomedicine