International Journal of Molecular Sciences (Feb 2023)

Correlations between H<sub>2</sub> Permeation and Physical/Mechanical Properties in Ethylene Propylene Diene Monomer Polymers Blended with Carbon Black and Silica Fillers

  • Jae K. Jung,
  • Ji H. Lee,
  • Sang K. Jeon,
  • Nae H. Tak,
  • Nak K. Chung,
  • Un B. Baek,
  • Si H. Lee,
  • Chang H. Lee,
  • Myung C. Choi,
  • Hyun M. Kang,
  • Jong W. Bae,
  • Won J. Moon

DOI
https://doi.org/10.3390/ijms24032865
Journal volume & issue
Vol. 24, no. 3
p. 2865

Abstract

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H2 permeation in peroxide-crosslinked EPDM blended with carbon black (CB) and silica fillers was studied at pressures ranging from 1.2 MPa to 90 MPa via the volumetric analysis technique. H2 uptake in the CB-filled EPDM revealed dual-sorption behaviors via Henry’s law and the Langmuir model, which were attributed to H2 absorption by the polymer chains and H2 adsorption at the filler interfaces, respectively. Additionally, single-sorption mechanisms were observed for neat EPDM and silica-blended EPDM according to Henry’s law, indicating H2 absorption by the polymer chain. The linear decreases in the diffusivity with filler content for the silica-blended EPDMs were attributed to increases in the diffusion paths caused by the filler. Exponential decreases in the diffusivity with increasing filler content and in the permeation with the physical/mechanical properties for CB-filled EPDMs were caused by decreases in the fractional free volume due to increased densities for the EPDM composites. Moreover, good filler-dependent correlations between permeability and density, hardness, and tensile strength were demonstrated for EPDMs used as sealing materials for O-rings. From the resulting equation, we predicted the permeation value without further measurements. Thus, we can select EPDM candidates satisfying the permeation guidelines used in hydrogen infrastructure for the future hydrogen economy.

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