Difference between revisions of "Gemstone based metamaterial"

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Generalized definition: [[Metamaterial]] <br>
  
 
'''[[diamondoid|Diamondoid]] metameterials''' form the necessary basis for the ''speculative'' [[further improvement at technology level III|advanced applications]] of AP [[technology level III]]. These highly complex applications will only become possible through the smart combination of the set of newly available materials with novel properties.
 
'''[[diamondoid|Diamondoid]] metameterials''' form the necessary basis for the ''speculative'' [[further improvement at technology level III|advanced applications]] of AP [[technology level III]]. These highly complex applications will only become possible through the smart combination of the set of newly available materials with novel properties.

Revision as of 23:25, 30 April 2014

Generalized definition: Metamaterial

Diamondoid metameterials form the necessary basis for the speculative advanced applications of AP technology level III. These highly complex applications will only become possible through the smart combination of the set of newly available materials with novel properties.

Depending on the APM nanofactory design (vacuum handling) diamondoid metamaterials can be organized in microcomponents or be monolithic.

A short note on low level diamondoid metamaterials can be found on the page describing diamondoid materials.

Todays definition of metamaterials is a bit different but this term still if fitting best here.

List of new materials / base technologies

The set of here presented meta-materials seems less speculative and more incomplete than the list of applications on the products page. It is sorted by design/programming effort which is rather subjective and subject to debate.

low effort

medium effort

  • artificial muscles with higher power densities than todays combustion engines
  • absolutely silent strong pumps ("pumping material" - no movable parts are visible with the naked eye)
    "air accelerators"? (an unintended heat pump issue may arise) -> microscale "fancloth" (as proposed by J. Storrs Hall) ?
  • cells for the direct conversion from mechanical to chemical energy and vice versa (chemomechanical converters).
  • super-fast shearing valves
  • material structuring into microcomponents for recycling and recomposition

high effort

Well designed nano to micro structure can create extraordinary mechanical material properties. Stress strain behaviour to order may be possible (in bounds). SVG