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MODELLING OF THE STATIC AND DYNAMIC PROPERTIES OF THO-TYPE SILICATES

Abstract

Auxetic materials are materials exhibiting a negative Poisson’s ratio in one of their planes. This phenomenon has been studied in various materials. Zeolites are crystalline substances whose structure is characterised by the framework of linked tetrahedra, each consisting of four oxygen atoms surrounding a cation. The resulting interstitial spaces make them efficient for use as adsorbents and molecular sieves, and many studies have been focused on this aspect. Some of these zeolites may exhibit auxeticity at least in one of their planes. THO (and similar systems, such as NAT and EDI) together with the all-silica equivalent of these have been studied extensively via static simulations for their negative Poisson’s ratio in the (001) plane.

In this paper a study of the all-silica equivalent of THO has been carried out via both static and dynamic simulations using the same force-field, where the system was subjected to stress along the x direction. The hypothesised semi-rigid mechanism of deformation, proposed by Grima et al. was then projected over this framework. The results obtained confirmed auxeticity along this plane by means of the COMPASS force-field, in both static and dynamic studies and compared well with the proposed mechanism of semi-rigid rotating polygons. It also showed that as the Young’s modulus of this mechanism increases other mechanisms of deformation increase in importance.

Keywords:

auxetics, zeolites, thomsonite, molecular dynamics

Details

Issue
Vol. 18 No. 1 (2014)
Section
Research article
Published
2014-03-31
DOI:
https://doi.org/10.17466/TQ2014/18.1/A
Licencja:
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Author Biographies

REUBEN CAUCHI,
University of Malta, Faculty of Science, Department of Chemistry, Metamaterials Unit



JOSEPH N. GRIMA,
University of Malta, Faculty of Science, Department of Chemistry, Metamaterials Unit



Authors

  • REUBEN CAUCHI

    University of Malta, Faculty of Science, Department of Chemistry, Metamaterials Unit
  • JOSEPH N. GRIMA

    University of Malta, Faculty of Science, Department of Chemistry, Metamaterials Unit

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