Parametric Study of 3D Microstructures with Volumetric Phase Transitions

Autores

  • Juan M. Podestá Universidad Nacional del Nordeste, Laboratorio de Mecánica Computacional, Departamento de Mecánica Aplicada, LAMEC - IMIT (CONICET). Resistencia, Chaco, Argentina.
  • Néstor Rossi Universidad Nacional del Nordeste, Laboratorio de Mecánica Computacional, Departamento de Mecánica Aplicada, LAMEC - IMIT (CONICET). Resistencia, Chaco, Argentina. & Centro de Investigación de Métodos Computacionales (CIMEC-UNL/CONICET). Santa Fe, Argentina.
  • Sebastián Toro Centro de Investigación de Métodos Computacionales (CIMEC-UNL/CONICET). Santa Fe, Argentina.
  • Alfredo E. Huespe Centro de Investigación de Métodos Computacionales (CIMEC-UNL/CONICET). Santa Fe, Argentina.

Palavras-chave:

Volumetric phase transitions, Multistability, 3D Metamaterials, Pattern formation

Resumo

In this work we propose and analyze several novel topological designs of metamaterial exhibiting elastic phase transitions. These phase transitions emerge as a consequence of the bistability of the metamaterials unit cell. The metamaterials achieve bistability through geometrically non-linear deformations involving chiral mechanisms and their topologies are completely defined by a few geometrical parameters. The microarchitectures differ between each other in the space group symmetry they belong to. We perform a parametric study of the bistable response of each design, and investigate the influence that the general symmetry and different unit cells shape have. Our analysis also includes an approximation of the macroscopic responses, obtained by analyzing a sampling volume composed of many unit cells, and the microstructure (pattern) formation in order to achieve lower-energy equilibrium configurations.

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Publicado

2025-03-30

Edição

v. 1 n. 12 (2024): Modelação Multiescala de Materiais

Seção

Resumos do MECOM 2024

Licença

Copyright (c) 2024 Associação Argentina de Mecânica Computacional

Creative Commons License
Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.

Esta publicação é de acesso aberto diamante, sem custos para autores ou leitores.

Somente os resumos que foram aceitos para publicação e apresentados no congresso da AMCA serão publicados.