Basis functions for residual stresses

•New basis functions for general residual stress states in arbitrary solid bodies.•The basis functions are eigenfunctions from a new extremization problem.•Some two dimensional finite element as well as semi analytical solutions are shown.•Extension to three dimensions is straightforward.•A formal p...

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Bibliographic Details
Published inApplied mathematics and computation Vol. 386; p. 125468
Main Authors Tiwari, Sankalp, Chatterjee, Anindya
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.12.2020
Subjects
Basis functions
Interpolation functions
Residual stresses
Interpolation functions
65N25
Basis functions
74G65
49R99
Residual stresses
46E29
65N30
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Summary:•New basis functions for general residual stress states in arbitrary solid bodies.•The basis functions are eigenfunctions from a new extremization problem.•Some two dimensional finite element as well as semi analytical solutions are shown.•Extension to three dimensions is straightforward.•A formal proof is given to show that the eigenfunctions form a basis. We consider arbitrary preexisting residual stress states in arbitrarily shaped, unloaded bodies. These stresses must be self-equilibrating and traction free. Common treatments of the topic tend to focus on either the mechanical origins of the stress, or methods of stress measurement at certain locations. Here we take the stress field as given and consider the problem of approximating any such stress field, in a given body, as a linear combination of predetermined fields which can serve as a basis. We consider planar stress states in detail, and introduce an extremization problem that leads to a linear eigenvalue problem. Eigenfunctions of that problem form an orthonormal basis for all possible residual stress states of sufficient smoothness. In numerical examples, convergence of the approximating stress fields is demonstrated in the L2 norm for continuous stress fields as well as for a stress field with a simple discontinuity. Finally, we outline the extension of our theory to three dimensional bodies and states of stress. Our approach can be used to describe arbitrary preexisting residual stress states in arbitrarily shaped bodies using basis functions that are determined by the body geometry alone.
ISSN:0096-3003
1873-5649
DOI:10.1016/j.amc.2020.125468