From “Engineering Explained.” He says that as you charge/discharge, the random orientation of microcrystalline structure in the battery combined with expansion/contraction due to Lithium migration results in forming cracks in the particles, which then results in reduced battery capacity. I’ve been letting my battery get down to 50% or so before bothering to charge back up to 80%, I may default to 70% and charge after every trip instead. (For a Volvo with NMC chemistry I’m not sure if I have “high nickel content” and would benefit form staying below 75% or not.)

  • HollandJim@lemmy.world
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    10 months ago

    This is at odds with Plug Life; that guy is a battery engineer, and I’ll take their word over EE any day.

      • HollandJim@lemmy.world
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        10 months ago

        Plug life advocates the 80-20 scheme, but also batteries that are thermally managed don’t need too much babysitting. Also charging over 60% is where battery damage tends to happen.