Connection method

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In the context of APM locking mechanisms are the simplest most compact physical structures that one can built that hold things together. They are classifiable into three classes:

  • energy barriers
  • hirachical locking
  • friction

[Todo: Improve this article]

Energy barrier locking

In the mancroscale springs, magnets, gravitation, and almost unused electrostatic attraction belong to this class.
In the nanoscale springs, VdW-force (Van der Walls attraction), chemical bonds and in some cases electrostatic attraction are well usable.

There thermal movement can knock a lock open by probabilistic chance which must be taken under consideration in system design. Energy barriers high enough to effectively prevent opening by chance can be easily reached. [Todo add VdW math example; add more details]

All other locking methods do too display energy barriers but have other more predominant traits.

Hirachical locking

Macroscale combined first level hirachical is common ...

Friction

Nails and screws base their locking ability on friction but in AP products one usually finds superlubrication between suraces.

One can design surfaces such that thay perfectly intermesh but this would effectively create a series of energy barriers (energy barrier locking) in which the barrier adter the first one won't have much use (linear instead of exponential decrease of accidental disassambly probability). Furthermore the energy might not be well recoverable leading to unnecessary waste heat. Thus the classical nail and screw design probably makes no sense at the nanocosm (To investigate: inhowfar is this statement true?)