The pulverization (particle cracking) of LaNi5-based electrodes with different Co contents (ca.5, 8 and 10 wt%) is studied by means of electrochemical acoustic emission measurements. Through an appropriate analysis of the acoustic signals detected during electrode cycling, the acoustic events related to particle cracking can be identified and quantified. It is shown that the particle cracking occurs mostly during the first charge. For the 5 and 8 wt% Co alloys, the particle cracking is mainly detected in the early stage of the hydriding reaction, i.e. when the alpha-to-beta phase transition is initiated. In contrast, for the 10 wt % Co alloy, the particle cracking is more progressive during the first charge with the presence of two successive increases of the acoustic activity, which is attributed to the formation of an intermediate gamma-phase hydride. On the basis of the number of acoustic events detected during the first charge, the influence of the Co content on the alloy pulverization is quantified with mean values of 13700, 5600 and 1300 events for a Co content in the alloy of 5, 8 and 10 wt%, respectively. (C) 2015 Elsevier Ltd. All rights reserved.