Difference between revisions of "Producer product pushapart"
From apm
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Two modes are thinkable: | Two modes are thinkable: | ||
* The static non-moving producer pushes out and away the product during its production | * The static non-moving producer pushes out and away the product during its production | ||
| − | * The the | + | * The the producing machinery gets somehow out of the way to make space for the static in place sitting non-transported product. |
== Producer pushes out the product == | == Producer pushes out the product == | ||
| − | * [[ | + | * [[Gemstone metamaterial on chip factories]] |
| − | * [[ | + | * [[On-chip microcomponent recomposer]]s |
| − | * [[Microcomponent maintenance microbot]]s used for on chip style production | + | * [[Microcomponent maintenance microbot]]s – when used for on chip style production |
== Producer gets out of the way of the growing product == | == Producer gets out of the way of the growing product == | ||
| − | * [[ | + | * [[Molecular assembler]]s – Outdated concept! |
| − | * [[Microcomponent maintenance microbot]]s used for volume scaffold assembler style production | + | * [[Microcomponent maintenance microbot]]s – when used for volume scaffold assembler style production |
= Hyper high throughput microcomponent recomposers = | = Hyper high throughput microcomponent recomposers = | ||
Revision as of 19:29, 23 May 2021
In any kind of productive nanosystem that manufactures a prosuct bottom up from the nanoscale to the macroscale, the the producer and the product need to be pushed apart in some ways in order for them to not mutually obstruct them during the manufacturing process.
Contents
Which way?
Two modes are thinkable:
- The static non-moving producer pushes out and away the product during its production
- The the producing machinery gets somehow out of the way to make space for the static in place sitting non-transported product.
Producer pushes out the product
- Gemstone metamaterial on chip factories
- On-chip microcomponent recomposers
- Microcomponent maintenance microbots – when used for on chip style production
Producer gets out of the way of the growing product
- Molecular assemblers – Outdated concept!
- Microcomponent maintenance microbots – when used for volume scaffold assembler style production
Hyper high throughput microcomponent recomposers
To reap the benefits of the scaling law of higher throughput of smaller machinery the pushapart at larger size-scales needs to go way above the scale natural speeds. This means taking turns becomes a no-go. What's needed are straight expulsion channels. Maybe lined with superlubricating stratified shear bearings.
- This may be feasible for microcomponent recomposition due to low energy turnover and high efficiency requiring manageable cooling
- This may not be feasible for piezochemical mechanosynthesis due to high energy turnover and lower efficiency requiring much more cooling
Which way?
Two options:
- The microcomponents are shot out at brutally high speed from the product under assembly through straight channels that may more or less narrow down.
The fractal growth speedup limit applies. So for a solid nonporous product there will be some slowdown towards the end. - The product is shot out at brutally high speed from straight channels in a overly thick on-chip microcomponent recomposer. More of a thick a slab than a thin chip.
