Difference between revisions of "High performance of gem-gum technology"
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* Scaling law: [[Higher throughput of smaller machinery]] | * Scaling law: [[Higher throughput of smaller machinery]] | ||
* Concrete consequence: [[Hyper high throughput microcomponent recomposition]] | * Concrete consequence: [[Hyper high throughput microcomponent recomposition]] | ||
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* [[Superlubrication]] and dropping friction even further: [[stratified shear bearings]] | * [[Superlubrication]] and dropping friction even further: [[stratified shear bearings]] | ||
* [[Superelasticity]] | * [[Superelasticity]] | ||
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* Highly temperature resilient base materials: [[Refractory compounds]] | * Highly temperature resilient base materials: [[Refractory compounds]] | ||
* High strength base materials: [[Base materials with high potential]] | * High strength base materials: [[Base materials with high potential]] | ||
* Highly (bio)degradable base materials (where appropriate). See: [[Recycling]] | * Highly (bio)degradable base materials (where appropriate). See: [[Recycling]] | ||
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+ | * Ludacrisly high potential [[power densities]] | ||
+ | * [[Mechanical energy transmission]] – [[Chemical energy transmission]] – [[Energy transmission]] | ||
+ | * [[Thermal energy transmission]] => [[Diamondoid heat pump system]] | ||
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+ | [[Piezochemical mechanosynthesis#Surprising facts]]: <br> | ||
+ | Reactions do not need to be highly exothermic to have low error rates. <br> | ||
+ | When heavily optimized and slowly operated astoundingly high efficiencies may be reachable. | ||
=== Fundamental limits === | === Fundamental limits === |
Revision as of 13:46, 21 June 2021
This page is about collecting and listing various aspects and performance parameters where gem-gum technology has the potential to vastly outperform anything that we have today.
Related
- Scaling law: Higher throughput of smaller machinery
- Concrete consequence: Hyper high throughput microcomponent recomposition
- Superlubrication and dropping friction even further: stratified shear bearings
- Superelasticity
- Highly temperature resilient base materials: Refractory compounds
- High strength base materials: Base materials with high potential
- Highly (bio)degradable base materials (where appropriate). See: Recycling
- Ludacrisly high potential power densities
- Mechanical energy transmission – Chemical energy transmission – Energy transmission
- Thermal energy transmission => Diamondoid heat pump system
Piezochemical mechanosynthesis#Surprising facts:
Reactions do not need to be highly exothermic to have low error rates.
When heavily optimized and slowly operated astoundingly high efficiencies may be reachable.