Scale agnostic mechanical design principles: Difference between revisions
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added link to page: ReChain tension redirection method |
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* [[Form closure]] | * [[Form closure]] | ||
* [[Multi V-groove self-centering]] | * [[Self centering]] – more concrete: '''[[Multi V-groove self-centering]]''' | ||
* [[Positive locking]] – more concrete: '''[[ReChain positive locking mechanism]]''' | |||
* [[Design principle of passive pretension]] | * [[Design principle of passive pretension]] – [[clip connector]]s applied such that pretension remains <br>(for strong connections clips orthogonal to load) | ||
'''Tension principles:''' | '''Tension principles:''' | ||
* [[Tension redirection principle]] – more concrete: [[ReChain tension redirection method]] | * [[Tension redirection principle]] – more concrete: '''[[ReChain tension redirection method]]''' | ||
* [[Rebar chain tensioning]] ( | * [[Rebar chain tensioning]] (tension applied only after loose pre-assembly). <br>This last one builds on pretty much all the other principles here. | ||
== Related == | == Related == | ||
Revision as of 18:05, 18 July 2025
- Form closure
- Self centering – more concrete: Multi V-groove self-centering
- Positive locking – more concrete: ReChain positive locking mechanism
- Design principle of passive pretension – clip connectors applied such that pretension remains
(for strong connections clips orthogonal to load)
Tension principles:
- Tension redirection principle – more concrete: ReChain tension redirection method
- Rebar chain tensioning (tension applied only after loose pre-assembly).
This last one builds on pretty much all the other principles here.
Related
- ReChain frame systems & ReChain index & Category:ReChain
- RepRec pick-and-place robots & Category:RepRec
Non scale agnostic: