Difference between revisions of "Crystolecule assembly robotics"
From apm
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− | * preceeding: [[mechanosynthesis core]] | + | In this zone of advanced [[nanofactory|nanofactories]] [[crystolecule]]s are put together to bigger [[microcomponent]]s. |
− | * next: [[ | + | Unlike in the [[Mechanosynthesis core]]s this happens under programmable control. |
+ | Crystolecule assembly cores are thus general purpose and can assemble many different kinds of [[microcomponents]]. | ||
+ | Consequently the next routing layer ([[microcomponent routing]]) has much lower importance than the preceding one [[crystolecule routing]]. | ||
+ | |||
+ | The [[connection method|means for connection]] in this size regime are usually passive and may or may not be reversible. | ||
+ | |||
+ | * [[seamless covalent welding]] to bigger monolithic crystolecules (irreversible) | ||
+ | * "weak" [[Vand der Waals force]] sticking (reversible) | ||
+ | * [[shape locking|interocking shapes]] (reversible) | ||
+ | |||
+ | == Some possible kinds of crystolecules that can be assembled here == | ||
+ | |||
+ | * [[Crystolecule]]s in general | ||
+ | * [[Structural elements for nanofactories]] | ||
+ | * [[Static rebar profile force circuit]] | ||
+ | * [[Tensioning mechanism design]] | ||
+ | |||
+ | == Related == | ||
+ | |||
+ | * preceeding: [[crystolecule routing]] and [[mechanosynthesis core]] | ||
+ | * next: [[microcomponent routing]], [[vacuum lockout]] and assembly of product fragments | ||
+ | |||
+ | == External links == | ||
+ | |||
+ | * [http://reprap.org/wiki/RepRec_Pick_%26_Place_Robots RepRec Pick & Place Robots] | ||
+ | * [http://reprap.org/wiki/ReChain_Frame_System ReChain Frame System] | ||
[[Category:Nanofactory]] | [[Category:Nanofactory]] | ||
[[Category:Site specific definitions]] | [[Category:Site specific definitions]] |
Revision as of 10:50, 10 June 2017
In this zone of advanced nanofactories crystolecules are put together to bigger microcomponents. Unlike in the Mechanosynthesis cores this happens under programmable control. Crystolecule assembly cores are thus general purpose and can assemble many different kinds of microcomponents. Consequently the next routing layer (microcomponent routing) has much lower importance than the preceding one crystolecule routing.
The means for connection in this size regime are usually passive and may or may not be reversible.
- seamless covalent welding to bigger monolithic crystolecules (irreversible)
- "weak" Vand der Waals force sticking (reversible)
- interocking shapes (reversible)
Some possible kinds of crystolecules that can be assembled here
- Crystolecules in general
- Structural elements for nanofactories
- Static rebar profile force circuit
- Tensioning mechanism design
Related
- preceeding: crystolecule routing and mechanosynthesis core
- next: microcomponent routing, vacuum lockout and assembly of product fragments