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The phenomenon of a potential-dependent chloride threshold (PDT) along with the corrosion macrocell coupling between active and passive steel assembly components allows to combine a corrosion initiation-propagation model to forecast the durability of reinforced concrete structures in marine service.
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Electrochemical energy conversion devices, such as fuel cells and electrolyzers, are widely recognized as an essential component of the transition to a low carbon economy. Polymer electrolyte membrane (PEM) variants of both technologies show particular promise due to their high current density, fast start-up times and low gas crossover rates. The main barrier to widespread uptake of these devices is their capital cost, which includes both raw material and manufacturing costs.