Finite element modeling system and method for modeling large-deformations using self-adaptive rezoning indicators derived from eigenvalue testing
First Claim
1. A machine-implemented adaptive rezoning process for implementation in a finite element (FE) analysis process for analyzing a continuum having a boundary, including the steps of (a) defining geometric and material parameters, (b) discretizing the continuum, (c) defining the element properties and geometry, (d) defining an initial mesh of nodes coupled by the elements, (e) applying boundary conditions and material parameters to the initial mesh, and (f) solving a system of simultaneous equations to find the strain displacements of a plurality of the mesh nodes as a function of a time increment, the adaptive rezoning process comprising the steps of:
- (g) generating a plurality of eigenvalues responsive to a machine-implemented solution of a plurality of element eigenvalue equations;
(h) generating an element distortion measure at a first mesh node responsive to the plurality of eigenvalues;
(j) defining a new mesh over at least one region in the continuum responsive to the first mesh node distortion measure;
(k) generating a discontinuity measure for the new mesh;
(l) repeating the defining step (j) and the generating step (k) if the discontinuity measure exceeds a second predetermined threshold; and
(m) mapping the initial mesh to the new mesh.
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Abstract
A self-adaptive rezoning process that employs a system of rezoning indicators for the automated detection of distorted elements during deformation. Linear isoparametric quadrilateral elements using selective reduced integration are employed to predict the remeshing points based upon finite-element modeling assumptions of structural problems involving large deformations and strains. Element geometrical measures are characterized in terms of aspect ratio, taper ratio and skew angle to permit the degree of element distortion expressed in these terms to be compared to an ideal element similarly expressed. The finite-element mesh is evaluated, element by element, to quantify the geometrical relationships required to properly quantify the amount of distortion.
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1 Claim
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1. A machine-implemented adaptive rezoning process for implementation in a finite element (FE) analysis process for analyzing a continuum having a boundary, including the steps of (a) defining geometric and material parameters, (b) discretizing the continuum, (c) defining the element properties and geometry, (d) defining an initial mesh of nodes coupled by the elements, (e) applying boundary conditions and material parameters to the initial mesh, and (f) solving a system of simultaneous equations to find the strain displacements of a plurality of the mesh nodes as a function of a time increment, the adaptive rezoning process comprising the steps of:
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(g) generating a plurality of eigenvalues responsive to a machine-implemented solution of a plurality of element eigenvalue equations;
(h) generating an element distortion measure at a first mesh node responsive to the plurality of eigenvalues;
(j) defining a new mesh over at least one region in the continuum responsive to the first mesh node distortion measure;
(k) generating a discontinuity measure for the new mesh;
(l) repeating the defining step (j) and the generating step (k) if the discontinuity measure exceeds a second predetermined threshold; and
(m) mapping the initial mesh to the new mesh.
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Specification