Practical Magnetic Levitating Transmission Gear System Loses Its Teeth

Zothecula writes: A new transmission device that uses magnetic levitation to almost completely eliminate friction and wear has been developed as part of the MAGDRIVE research project, a collaboration of seven European nations. The creation of the unit entailed the development of a magnetic gear reducer and corresponding frictionless magnetic axles. Aimed primarily for use in spacecraft due to its extended mechanical life, the system is also adaptable for use in automobiles, railways, and aircraft.

Re:PBS had a documentary...

[ledow]

If something has been abandoned for 90+ years with no significant advances in the area, it's probably for a reason.

The upper limit on what such gearing could do is quite low. You're comparing a steel-pushing-steel scenario with one of trying to turn one magnetic wheel by pushing another near it. It's a loser except in ultra-specialist applications with exotic materials (Space? Fine. Your car? Unlikely).

Battery powered cars have been around forever. UK milk floats were entirely battery powered for decades, delivering hundreds of pints of milk to every house in the local town - they just used lead acid batteries and charged overnight. If you ever got stuck behind one, you quickly (!) found out the limitations of the technology of the time. We've moved on from there now, but only very, very recently.

Some huge trucks still have things based on variable transmission technology, so the entire gearbox doesn't have gears but just slides into the most convenient gearing automatically. They've been around for decades. And they work by using a strong belt that can slide up and down a conical shaft. I kid you not. Every few years, they are re-invented under another brand / patent / material and actually do quite a good job. But they are still considered specialist parts because we can't overcome their weaknesses.

Wankel engines were still in mass production until very recently (I believe Mazda don't have newer models that still use them?). Again, they do everything you would want and were constantly reinventing themselves for decades.

The problem is not that it's been done before. It's that it's been done an awful lot and not much more can be done that way. As such, although we have stronger room-temperature magnets, they aren't THAT much stronger. Superconducting magnets might be considered "new" but we can't make them practical yet - except in the absolute zero and vacuum of outer space.

There's nothing wrong with going back to the old, but you have to add something new (e.g. the clockwork radio was hailed as genius because it took the old and made it do something "new").

And I'm not sure this does that at all.