Search Results - "Cardiff, P."

Thirty Years of the Finite Volume Method for Solid Mechanics by Cardiff, P., Demirdžić, I.

“…Since early publications in the late 1980s and early 1990s, the finite volume method has been shown suitable for solid mechanics analyses. At present, there…”
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Symmetry plane boundary conditions for cell-centered finite-volume continuum mechanics by Demirdžić, I., Cardiff, P.

“…A general approach to deriving the symmetry plane boundary conditions for cell-centered finite-volume continuum mechanics is presented. It is equally…”
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Patient-specific modelling of contact characteristics in the ankle joint following triple arthrodesis in valgus, neutral and varus hindfoot positions by Muralidharan, L., Cardiff, P., Flavin, R., Ivanković, A.

“…The aim of the current study was to understand the importance of the joint alignment following triple arthrodesis by analysing the contact characteristics in a…”
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A large strain finite volume method for orthotropic bodies with general material orientations by Cardiff, P., Karač, A., Ivanković, A.

“…This paper describes a finite volume method for orthotropic bodies with general principal material directions undergoing large strains and large rotations. The…”
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A numerical investigation of the mechanics of intracranial aneurysms walls: Assessing the influence of tissue hyperelastic laws and heterogeneous properties on the stress and stretch fields by Oliveira, I.L., Cardiff, P., Baccin, C.E., Gasche, J.L.

“…Numerical simulations have been extensively used in the past two decades for the study of intracranial aneurysms (IAs), a dangerous disease that occurs in the…”
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On the major role played by the lumen curvature of intracranial aneurysms walls in determining their mechanical response, local hemodynamics, and rupture likelihood by Oliveira, I.L., Cardiff, P., Baccin, C.E., Tatit, R.T., Gasche, J.L.

“…The properties of intracranial aneurysms (IAs) walls are known to be driven by the underlying hemodynamics adjacent to the IA sac. Different pathways exist…”
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Development of a finite volume contact solver based on the penalty method by Cardiff, P., Karač, A., Ivanković, A.

“…► A cell-centred finite volume frictionless contact stress solver based on the penalty method is developed. ► The solver is implemented in the open-source…”
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Advantages of formulating an evolution equation directly for elastic distortional deformation in finite deformation plasticity by Rubin, M. B., Cardiff, P.

“…Simo (Comput Methods Appl Mech Eng 66:199–219, 1988 ) proposed an evolution equation for elastic deformation together with a constitutive equation for…”
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A Lagrangian cell‐centred finite volume method for metal forming simulation by Cardiff, P., Tuković, Ž., Jaeger, P. De, Clancy, M., Ivanković, A.

“…Summary The current article presents a Lagrangian cell‐centred finite volume solution methodology for simulation of metal forming processes. Details are given…”
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Development of a hip joint model for finite volume simulations by Cardiff, P, Karač, A, FitzPatrick, D, Ivanković, A

“…This paper establishes a procedure for numerical analysis of a hip joint using the finite volume method. Patient-specific hip joint geometry is segmented…”
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Development of mapped stress-field boundary conditions based on a Hill-type muscle model by Cardiff, P., Karač, A., FitzPatrick, D., Flavin, R., Ivanković, A.

“…SUMMARYForces generated in the muscles and tendons actuate the movement of the skeleton. Accurate estimation and application of these musculotendon forces in a…”
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A block-coupled Finite Volume methodology for linear elasticity and unstructured meshes by Cardiff, P., Tuković, Ž., Jasak, H., Ivanković, A.

“…•A coupled extended-stencil cell-centred Finite Volume solution methodology is proposed.•Face tangential gradients of displacement are implicitly calculated…”
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A block-coupled Finite Volume methodology for problems of large strain and large displacement by Azevedo, L. R, Cardiff, P, Galindo-Rosales, F. J, Schafer, M

“…A nonlinear block-coupled Finite Volume methodology is developed for large displacement and large strain regime. The new methodology uses the same normal and…”
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An open-source finite volume toolbox for solid mechanics and fluid-solid interaction simulations by Cardiff, P, Karač, A, De Jaeger, P, Jasak, H, Nagy, J, Ivanković, A, Tuković, Ž

“…Over the past 30 years, the cell-centred finite volume method has developed to become a viable alternative to the finite element method in the field of…”
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