Difference between revisions of "Gemstone-like molecular element"

From apm
Jump to: navigation, search
m
Line 1: Line 1:
'''Diamondoid molecular elements''' are '''[https://en.wikipedia.org/wiki/Machine_element machine elements] at the lower physical size limit'''.
+
'''Diamondoid molecular elements''' are structural- or '''[https://en.wikipedia.org/wiki/Machine_element machine elements] at the lower physical size limit'''.
 
Since '''metals are unsuitable''' [[diamondoid]] materials must be used.
 
Since '''metals are unsuitable''' [[diamondoid]] materials must be used.
  

Revision as of 15:26, 4 December 2013

Diamondoid molecular elements are structural- or machine elements at the lower physical size limit. Since metals are unsuitable diamondoid materials must be used.

  • DM machine elements (DMMEs) (examples) like bearigs and gears have completely passivated surfaces.
  • DM structural elements (DMSEs) (example) are minimally sized structural building blocks that are only partially passivated. They expose multiple radicals on some of their surfaces that act as AP welding interfaces to complementary surfaces. The step of connecting surface interfaces is done in assembly level II and is irreversible.
  • DME ... Diamodoid Molecular Element (stiff - small - minimal)
  • DMME ... D.M. Machine Element
  • DMSE ... D.M. Structural Element

Name suggestion: since DMEs are somewhat of a cross between crystals and molecules why not call them "crystolecules"

Diamondoid molecular machine elements

sets

Minimal set of compatible DMMEs

In electric circuits there is one topological and three kinds of basic passive elements.
Adding an active switching element one can create a great class of circuits.
0) fork node; 1) capacitors; 2) inductors; 3) resistors

Those passive elements have a direct correspondences in rotative or reciprocating mechanics namely:
0) planetary or differential gearbox [*]; 1) springs; 2) inertial masses; 3) friction elements
[*] and analogons for reciprocating mechanics

But there are limits to the electric-mechanic analogy. Some mechanic elements often differ significantly from their electric counterparts in their qualitative behavior. Two examples of elements quite different in behaviour are:

  • transistors & locking pins
  • transformers & gearboxes

With creating a set of standard sizes of those elements and a modular building block system to put them together creating rather complex systems can be done in a much shorter time.
Like in electronics one can first create a schematics and subsequently the board.

To do: Create a minimal set of minimal sized DMMEs for rotative nanomechanics. Modular housing structures standard bearings and standard axle redirectioning are also needed.

To investigate: how can reciprocating mechanics be implemented considereng the passivation bending issue

types

Bearings

[Todo: describe incommensurate superlubrication & pullout bearing effect & "binary" effect]

Fasteners

[Todo: describe locking mechanisms: hirachical;barrier; difference to makro; covaconn;...]

Others

[Todo: pears, pumps, telescoptc rods .... DME issues lack of ball curvature & DMSEs?]

Diamondoid Molecular Structural elements

sets

[Todo: describe standardized building block systems]

Wiki-tetrapod-openconnects-black-135.png