“Just to meet business-as-usual trends, 115% more copper must be mined in the next 30 years than has been mined historically until now,” the study said.

  • @[email protected]
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    66 months ago

    Aluminum coil transformers produce more waste heat and are more susceptible to vibration than copper coil.

    Ev motors are big coils.

    It’s gotta be copper.

    • @werefreeatlast
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      16 months ago

      As an example:

      By weight (mass) aluminum is about twice as good a conductor as copper. This is important when they are hanging high-voltage wires from towers

      Not my words. You’re wrong. The problem is 1) enamel coating research. 2) the strength of the material. Aluminum that is formable into wire is just darn soft and can easily fracture from bending. 3) I would say is the issue with not being able to solder to it. It has to be crimped connections which may fail due to corrosion. But all these are fixable problems. Aluminum is a conductor that is on par with copper for usability, and it is way more abundant.

      • @[email protected]
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        46 months ago

        I mean, you’re right, but we can’t use braided aluminum wire to make the coils in transformers and motors, so aluminums greater conductivity by mass is undercut by not being able to take advantage of that property because the engineering for motors and transformers dictates solid wire of a specific diameter.

        Also an aluminum winding transformer or motor needs a bigger slug to deal with the more than double resistivity and at some point the benefits of aluminums cheapness and lightness disappear when you gotta have more heavy iron in the core, more heat and more winding failure due to vibration.

        I don’t think that means we’re not gonna see ev motors with aluminum windings, just that they’ll be in shitty cheap vehicles for poor people.

          • @[email protected]
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            6 months ago

            Some of the stuff about that company says it’s doing aluminum windings and some of it says they’re doing no windings with flux barriers and air gaps. What’s up with that, different experimental technologies?

            I’m skeptical of their claims about it being environmentally friendly since more stuff made out of aluminum means more aluminum being pulled out of the ground, but it’ll be interesting to see that develop.

            E: their claim that it’s environmentally friendly because it’s got less rare earths makes sense now because they gotta use iron instead cause of the resistivity. I’m genuinely interested to see how much weight or volume savings they get and the efficiency for a given power output compared to a traditional copper and rare earth motor.

            It really seems like a strange step backwards (not an insult, plenty of old technologies are perfectly valid and their manufacturing techniques need to still exist) to get cheaper components that sidestep the cost of shipping recycled copper around.

            At some point the high cost of recycled materials has to be integrated into the supply chain somehow otherwise the benefit of having recycled them will never be realized. This technology seems like a scheme to increase consumption without dealing with the consequences of previous consumption.