Difference between revisions of "Hundredfold smaller frictionlosses from tenfold slowdown"
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* '''[[Optimal sublayernumber for minimal friction]]''' | * '''[[Optimal sublayernumber for minimal friction]]''' | ||
* [[Compenslow]] | * [[Compenslow]] | ||
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| + | * [[Non size-scale scaling law]] | ||
| + | * [[Scaling law (disambiguation)]] | ||
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[[Category:Scaling law]] | [[Category:Scaling law]] | ||
Revision as of 22:11, 5 October 2022
Dynamic friction (as present in atomically precise diamondoid slide bearings) scales to the square with speed.
So there is a lot to be gained by slowing down.
And deliberate slowdown at the lower assembly levels slowdown can be afforded
due to higher throughput of smaller machinery.
Related
- Friction
- Friction in gem-gum technology
- Deliberate slowdown at the lower assembly levels
- Increasing bearing area to decrease friction
- Optimal sublayernumber for minimal friction
- Compenslow
