Examinando por Autor "Aguirre-Mesa, Andres"
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Ítem Quaternion and octonion-based finite element analysis methods for computing multiple first order derivatives(Elsevier Inc., 2019-11-15) Aristizabal, Mauricio; Ramirez-Tamayo, Daniel; Garcia, Manuel; Aguirre-Mesa, Andres; Montoya, Arturo; Millwater, Harry; Mecánica AplicadaThe complex Taylor series expansion method for computing accurate first order derivatives is extended in this work to quaternion, octonion and any order Cayley-Dickson algebra. The advantage of this new approach is that highly accurate multiple first order derivatives can be obtained in a single analysis. Quaternion and octonion-based finite element analysis methods were developed in order to compute up to three (quaternion) and up to seven (octonion) first order derivatives of shape, material properties, and/or loading conditions in a single analysis. The traditional finite element formulation was modified such that each degree-of-freedom was augmented with three or seven additional imaginary nodes. The quaternion and octonion-based methods were integrated within the Abaqus commercial finite element code through a user element subroutine. Numerical examples are presented for thermal conductivity and linear elasticity; however, the methodology is general. The results indicate that the quaternion and octonion-based methods provide derivatives of the same high accuracy as the complex finite element method but are significantly more efficient. A Fortran code to solve a simple seven variable quaternion example is given in the Appendix. (C) 2019 Elsevier Inc. All rights reserved.