Beilstein Journal of Nanotechnology (Nov 2016)

Prediction of the mechanical properties of zeolite pellets for aerospace molecular decontamination applications

  • Guillaume Rioland,
  • Patrick Dutournié,
  • Delphine Faye,
  • T. Jean Daou,
  • Joël Patarin

DOI
https://doi.org/10.3762/bjnano.7.169
Journal volume & issue
Vol. 7, no. 1
pp. 1761 – 1771

Abstract

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Zeolite pellets containing 5 wt % of binder (methylcellulose or sodium metasilicate) were formed with a hydraulic press. This paper describes a mathematical model to predict the mechanical properties (uniaxial and diametric compression) of these pellets for arbitrary dimensions (height and diameter) using a design of experiments (DOE) methodology. A second-degree polynomial equation including interactions was used to approximate the experimental results. This leads to an empirical model for the estimation of the mechanical properties of zeolite pellets with 5 wt % of binder. The model was verified by additional experimental tests including pellets of different dimensions created with different applied pressures. The optimum dimensions were found to be a diameter of 10–23 mm, a height of 1–3.5 mm and an applied pressure higher than 200 MPa. These pellets are promising for technological uses in molecular decontamination for aerospace-based applications.

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