Adjustable Magnetic suspension?

[BeardyMentor]

I have worked in the 3D printing industry. I have heard about a lot of these "wonderful miracle technologies". Every time you see some thing like this, you need to look at it very critically. Always ask what this new, high tech, and likely extremely expensive, new technique actually gets you. In doing this you need to carefully define what properties are important to you in a possible solution. In this case you would have to ask what these magnets would do for you over a spring. My guess is in this case the fancy magnetic suspension would not give you any significant benefit over a traditional spring. The adjustable equilibrium point would be nice, but would such a system really be worth it for an FRC robot beyond the cool factor?

[christheman200]

Would it have an advantage over conventional suspension? Probably not. But I'm still going to go with it and see it where it goes. Who knows what interesting characteristics it could have?

[JDGallagher]

I would be curious if the benefit of a suspension system in frc would make the increased effort and weight worth it. In a game with obstacles like Stronghold or Breakaway, maybe Rebound Rumble, I could see the benefit from reducing impact to the frame, but you may also see reduced accuracy with shooters if the drive base is not at a consistent angle. I'd also like to see if you could make a magnetic suspension lighter or smaller than an adjustable traditional spring based system. Anybody know of another benefit that a suspension would give other than improving impact resistance?

[gblake]

OK I watched the video. From what I saw in the video...

It looks like they are flipping the polarity of small regions of ordinary-ish macro-scale magnets, with mm-ish levels of granularity. I suspect a similar result could be created by gluing together lot of small magnets (hexagonal bar magnets perhaps).

They aren't actually printing out magnets.

The arrangements they create don't strengthen the total field of the magnet, but they are able to concentrate the flux density in local regions (at the expense of the flux density everywhere else).

Congrats to them for creating what appears to be a macro-scale version of the magnetic medium and the read/write head of a Winchester disk (a computer hard drive).

The process, and the behaviors of the patterns they are creating are slick; and the prices of their products are low enough for Jane and Joe Doe to consider buying some to play with.

Can they really create any desire force vs distance behavior they want (in two finite-sized "magnets")? I'm not so sure physics will let them create *any* behavior I might imagine ... The YouTube guy said that, not a company rep.

Will the company be profitable? Good question. Time will tell.

Will their stuff be fun to experiment with. Definitely.

Blake