Overstretch push-out: Difference between revisions
m Apm moved page Overstretch pushout to Overstretch push-out: feels more natural with a hyphen, leaving old page title as a redirect |
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== Related == | == Related == | ||
* '''[[VdW suck-in and suck-on]]''' | |||
* '''[[Free floating crystolecule]]''' | * '''[[Free floating crystolecule]]''' | ||
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* [[Accidentally suggestive]] | |||
Latest revision as of 22:14, 29 March 2026
VdW suck-in and suck-on can accelerate a crystolecule enough
such that it overshoots the end of its unobstructed superlubric rail and it escapes into free space.
High ebergy intercrystolecular snapping modes can cause
high energy mechanical exctiations which in turn can shoot off a crystolecule into free space.
A piston in a slightly too tight cylinder can cause push-out by Pauli-repulsion.
See the simulation clip. The push-out effect gets weaker the further it is pushed out,
Attained speed gets dissipated making it slow down a bit,
but in the case of this specific simulation it still sufficed for an eventual ejection.
There is also a bend-snap happening at the very end making for a sudden re-acceleration.
And for a lot of very strong mechanical mode excitations.
Also related here is the topic of accidental heatpumps.
These are high speed high energy events compared to proposed operation speeds and energies. Usually happening at least at several dozen m/s speeds.