Difference between revisions of "Macroscale style machinery at the nanoscale"
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Major differenced that crop up include: | Major differenced that crop up include: | ||
− | * Very '''different types of used materials''' (no metals but gemstones instead) <br> | + | * Very '''different types of used materials''' (no metals but gemstones instead). That: <br>prevents parts to cold weld to others, <br>prevents oxidation <small>(in the rare case the nanomachinery sits exposed on a products surface)</small>, <br> prevents eventually possible diffusion <small>(metallic bonds allow for easier thermal activated slide-hops)</small> |
* '''More sturdy designs''' for the low material stiffness at small scales <br>(designs that avoid mechanical ringing by electrical design principles) | * '''More sturdy designs''' for the low material stiffness at small scales <br>(designs that avoid mechanical ringing by electrical design principles) | ||
* '''No lubricants''' used. They would only cause massive viscous drag. | * '''No lubricants''' used. They would only cause massive viscous drag. |
Revision as of 16:04, 20 August 2018
Physics changes when one scales down things. This may pose serious problems.
If you are educated in physics and nanotechnology you will likely be quick to point out that this will not work because of the effects of one or more of the following scaling laws (here listed in informal form):
- rising surface area (per volume)
>> concerns: rising friction; rising corrosion; clogging - rising tendency towards thermodynamic equilibrium -- (Thermodynamics)
- rising influence of thermal motion -- (Jittery finger problem)
- rising influence of quantum mechanics
- falling available space (obviously) -- (Fat finger problem)
- falling material stiffness (less obvious) -- (Sloppy finger problem)
- rising influence of intermolecular forces -- (Sticky finger problem)
- rising effect of viscosity
But: All of these potential concerns have been analyzed.
The result: In total things change for the better rather than for the worse.
That is: For macroscale style machinery the changing of physics is actually an improving rather than a worsening.
Why nature doesn't do it this way albeit it being a better way is a topic different in kind. A concern not based on physically quantifiable scaling laws. See the main article: "Nature does it differently".
Limits to similarity
While superficially the targeted advanced productive nanosystems look very similar to macroscale machinery, looking just a bit deeper the similarities quickly start to fade.
Major differenced that crop up include:
- Very different types of used materials (no metals but gemstones instead). That:
prevents parts to cold weld to others,
prevents oxidation (in the rare case the nanomachinery sits exposed on a products surface),
prevents eventually possible diffusion (metallic bonds allow for easier thermal activated slide-hops) - More sturdy designs for the low material stiffness at small scales
(designs that avoid mechanical ringing by electrical design principles) - No lubricants used. They would only cause massive viscous drag.
- Operation at slower speeds. "Exploding" productivity at small scales allows that.
(Note that this is about lower absolute speeds, not lower frequencies. Operation frequencies are way higher.) - Designs heed the Van der Waals forces that originate from the near background. (they need to either be balanced out or used)
- Other means for connecting parts, differing to the ones encountered at the macroscale
E.g.: No usage of nuts and bolts (at least not in the classical sense where nuts and bolts are usually tiny compared to the linked parts and held in by friction) - Mandatory existence of mechanical backup systems (or more advanced redundancy)
- Electrical motors based on electrostatics instead of magnetostatics.
- ... the list goes on ...
Related: Design of Crystolecules
High level considerations
It turns out that all the above mentioned common concerns:
- either do not hold at all under closer inspection
- or they are partially true but overcompensated by other less known factors
For detailed explanations regarding the individual concerns please follow the links above.
(wiki-TODO: complete those links)