Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1285446 | Journal of Power Sources | 2016 | 5 Pages |
•An ex-situ tensile fatigue-creep accelerated stress test (TFC-AST) is proposed.•Fatigue induces work hardening and increased brittleness due to microcracks.•Creep induces an elongated, meta-stable ionomer morphology.•The TFC-AST is shown to be a rapid, economical alternative to in-situ tests.
An ex-situ tensile fatigue and creep based accelerated stress test (TFC-AST) is proposed to evaluate the mechanical stability of catalyst coated membranes (CCMs) used in fuel cells. The fatigue-creep action of the TFC test is analyzed by tensile and hygrothermal expansion measurements on partially degraded specimens supplemented by microstructural characterization using transmission electron microscopy, revealing significant decay in mechanical properties as well as morphological rearrangement due to the combined fatigue and creep loading. Through comparison with in-situ hygrothermally degraded CCMs, the TFC-AST protocol is demonstrated to be an economical alternative to the costly in-situ mechanical accelerated stress tests that can reduce the test duration by more than 99%.
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