Homogenization of the 1D Peri-static/dynamic Bar with Triangular Micromodulus

Homogenization of the 1D Peri-static/dynamic Bar with Triangular Micromodulus

In peridynamics, boundary effects generally appear due to nonlocality of interparticle forces; in particular, end effects are found in 1D bars. In a previous work by Eriksson and Stenström ( J Peridyn Nonlocal Model 2(2):205–228, 2020 ), a simple method to remove end effects in certain types of 1D b...

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Veröffentlicht in:Journal of peridynamics and nonlocal modeling (Online) 2021, Vol.3 (2), p.85-112
Hauptverfasser: Eriksson, Kjell, Stenström, Christer
Format: Artikel
Sprache:eng
Schlagworte:
Characterization and Evaluation of Materials
Computational Science and Engineering
Engineering
Homogenisering
Homogenization
Hållfasthetslära
Nonlocal methods
Original Articles
Peridynamics
Peridynamik
Peristatics
Peristatik
Punktbaserade metoder
Solid Mechanics
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Beschreibung
Zusammenfassung:In peridynamics, boundary effects generally appear due to nonlocality of interparticle forces; in particular, end effects are found in 1D bars. In a previous work by Eriksson and Stenström ( J Peridyn Nonlocal Model 2(2):205–228, 2020 ), a simple method to remove end effects in certain types of 1D bars, or to homogenize such bars, was presented for bars with constant micromodulus. In this work, which is a continuation of Eriksson and Stenström ( J Peridyn Nonlocal Model 2(2):205–228, 2020 ), the homogenizing procedure is applied to bars with a linear, or “triangular,” micromodulus. For the examples studied, common in practice, the linear elastic behavior of a homogenized bar, is identical to that of a corresponding classical continuum mechanics bar, independently of the interparticle force range and total number of material points of the bar.
ISSN:2522-896X
2522-8978
2522-8978
DOI:10.1007/s42102-020-00042-x