The Synergistic Effect of Carbon Black/Carbon Nanotube Hybrid Fillers on the Physical and Mechanical Properties of EPDM Composites after Exposure to High-Pressure Hydrogen Gas

Author:

Kang Hyunmin1,Bae Jongwoo1,Lee Jinhyok1,Yun Yumi1,Jeon Sangkoo2,Chung Nakkwan2ORCID,Jung Jaekap2ORCID,Baek Unbong2,Lee Jihun2ORCID,Kim Yewon2ORCID,Choi Myungchan1ORCID

Affiliation:

1. Elastic Material Research Group, Korea Institute of Materials Convergence Technology, Busan 47154, Republic of Korea

2. Hydrogen Energy Group, Korea Research Institute of Standards and Science, Daejeon 34113, Republic of Korea

Abstract

This study investigated the synergistic effect of carbon black/multi-wall carbon nanotube (CB/MWCNT) hybrid fillers on the physical and mechanical properties of Ethylene propylene diene rubber (EPDM) composites after exposure to high-pressure hydrogen gas. The EPDM/CB/CNT hybrid composites were prepared by using the EPDM/MWCNT master batch (MB) with 10 phr CNTs to enhance the dispersion of CNTs in hybrid composites. The investigation included a detailed analysis of cure characteristics, crosslink density, Payne effect, mechanical properties, and hydrogen permeation properties. After exposure to 96.3 MPa hydrogen gas, the hydrogen uptake and the change in volume and mechanical properties of the composites were assessed. We found that as the MWCNT volume fraction in fillers increased, the crosslink density, filler–filler interaction, and modulus of hybrid composites increased. The hydrogen uptake and the solubility of the composites decreased with an increasing MWCNT volume fraction in fillers. Moreover, after exposure to hydrogen gas, the change in volume and mechanical properties exhibited a diminishing trend with a higher MWCNT volume fraction. We conclude that the hybridization of CB and CNTs formed strong filler–filler networks in hybrid composites, consequently reinforcing the EPDM composites and enhancing the barrier properties of hydrogen gas.

Funder

Development of Reliability Measurement Technology for Hydrogen Refueling Station, funded by Korea Research Institute of Standards and Science

Technology Innovation Program

Publisher

MDPI AG

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