Difference between revisions of "Atomically precise slide bearing"
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The design principle of [[Infinitesimal bearings]] can help for higher speeds <br> | The design principle of [[Infinitesimal bearings]] can help for higher speeds <br> | ||
− | but going for [[atomically precise roller | + | but going for [[atomically precise roller gearbearing]]s too in the case of larger scale bearings <br> |
− | ([[assembly level 2]] and above in [[productive nanosystems]]) may be advisanle. | + | ([[assembly level 2]] and above in [[productive nanosystems]]) may be advisanle. |
== Related == | == Related == |
Revision as of 13:05, 11 August 2022
Up: Atomically precise bearings
Atomically precise slide bearings are bearings with:
- all surfaces being atomically precise and nonreactive (See: nanoscale passivation)
- atomic bumpiness tuned for incommensurability – See: superlubricity
- dry running – no lubricants – (atoms in lubricants would be like gravel at these scales)
- no hollow spaces where dirt could get caught in / operating in a sealed PPV environment
Pros & Cons
PROs / Advantages:
- can be very small and compact
- can have extremely low friction for small speeds 1mm/s and below
Note: Choosing slow speeds in productive nanosystems is a viable (and proposed) option due to
the scaling law of higher throughput of smaller machinery.
CONs / Disadvantages:
- significant friction for moderate speeds ~1m/s
- very high friction for high speeds
Dynamic friction scales quadratically with speed. 10x speed 100x friction.
And vice-versa as the flip side of the coin.
The design principle of Infinitesimal bearings can help for higher speeds
but going for atomically precise roller gearbearings too in the case of larger scale bearings
(assembly level 2 and above in productive nanosystems) may be advisanle.