Concurrent multiscale analysis of heterogeneous materials

Oriol Lloberas-Valls; Frank Everdij; Daniel Rixen; Angelo Simone; Bert Sluys

Concurrent multiscale analysis of heterogeneous materials

Oriol Lloberas-Valls, Frank Everdij, Daniel Rixen, Angelo Simone, Bert Sluys

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Scopus citations

Abstract

Concurrent multiscale analysis of quasi-brittle heterogeneous materials such as concrete and rock is conducted employing non-overlapping domain decomposition techniques. Initially, a coarse discretization with effective properties is considered at each domain. A zoom-in technique is performed at those domains in which non-linearities take place. The coarse mesh is replaced with a fine discretization which includes the lower scale constituents, e.g. aggregates or reinforcement. The present framework captures the interaction between the mesoscopic constituents and the strain/stress fields. The resulting crack path is in agreement with the one obtained with direct numerical simulations. It is shown that the interscale relations enforced at the interface between coarse and fine domains play an important role in the global response of the material.

Original language	English
Title of host publication	ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers
Pages	467-481
Number of pages	15
State	Published - 2012
Externally published	Yes
Event	6th European Congress on Computational Methods in Applied Sciences and Engineering, ECCOMAS 2012 - Vienna, Austria Duration: 10 Sep 2012 → 14 Sep 2012

Publication series

Name	ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers

Conference

Conference	6th European Congress on Computational Methods in Applied Sciences and Engineering, ECCOMAS 2012
Country/Territory	Austria
City	Vienna
Period	10/09/12 → 14/09/12

Keywords

Domain decomposition
Multiscale
Quasi-brittle heterogeneous materials
Strain localization

Cite this

Lloberas-Valls, O., Everdij, F., Rixen, D., Simone, A., & Sluys, B. (2012). Concurrent multiscale analysis of heterogeneous materials. In ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers (pp. 467-481). (ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers).

Lloberas-Valls, Oriol ; Everdij, Frank ; Rixen, Daniel et al. / Concurrent multiscale analysis of heterogeneous materials. ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers. 2012. pp. 467-481 (ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers).

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keywords = "Domain decomposition, Multiscale, Quasi-brittle heterogeneous materials, Strain localization",

author = "Oriol Lloberas-Valls and Frank Everdij and Daniel Rixen and Angelo Simone and Bert Sluys",

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note = "6th European Congress on Computational Methods in Applied Sciences and Engineering, ECCOMAS 2012 ; Conference date: 10-09-2012 Through 14-09-2012",

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Lloberas-Valls, O, Everdij, F, Rixen, D, Simone, A & Sluys, B 2012, Concurrent multiscale analysis of heterogeneous materials. in ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers. ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers, pp. 467-481, 6th European Congress on Computational Methods in Applied Sciences and Engineering, ECCOMAS 2012, Vienna, Austria, 10/09/12.

Concurrent multiscale analysis of heterogeneous materials. / Lloberas-Valls, Oriol; Everdij, Frank; Rixen, Daniel et al.
ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers. 2012. p. 467-481 (ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Concurrent multiscale analysis of heterogeneous materials

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AU - Everdij, Frank

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AU - Simone, Angelo

AU - Sluys, Bert

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N2 - Concurrent multiscale analysis of quasi-brittle heterogeneous materials such as concrete and rock is conducted employing non-overlapping domain decomposition techniques. Initially, a coarse discretization with effective properties is considered at each domain. A zoom-in technique is performed at those domains in which non-linearities take place. The coarse mesh is replaced with a fine discretization which includes the lower scale constituents, e.g. aggregates or reinforcement. The present framework captures the interaction between the mesoscopic constituents and the strain/stress fields. The resulting crack path is in agreement with the one obtained with direct numerical simulations. It is shown that the interscale relations enforced at the interface between coarse and fine domains play an important role in the global response of the material.

AB - Concurrent multiscale analysis of quasi-brittle heterogeneous materials such as concrete and rock is conducted employing non-overlapping domain decomposition techniques. Initially, a coarse discretization with effective properties is considered at each domain. A zoom-in technique is performed at those domains in which non-linearities take place. The coarse mesh is replaced with a fine discretization which includes the lower scale constituents, e.g. aggregates or reinforcement. The present framework captures the interaction between the mesoscopic constituents and the strain/stress fields. The resulting crack path is in agreement with the one obtained with direct numerical simulations. It is shown that the interscale relations enforced at the interface between coarse and fine domains play an important role in the global response of the material.

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KW - Multiscale

KW - Quasi-brittle heterogeneous materials

KW - Strain localization

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ER -

Concurrent multiscale analysis of heterogeneous materials

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