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Inertia damper

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An inertia damper is a device that counters vibration using the effects of inertia and other forces and motion.[1] The damper does not negate the forces but either absorbs or redirects them by other means. For example, a large and heavy suspended body may be used to absorb several short-duration large forces, and to reapply those forces as a smaller force over a longer period.

Real-world applications and devices

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Inertial compensators are also used in simulators or rides, making them more realistic by creating artificial sensations of acceleration and other movement. The Disneyland ride “Star Tours: The Adventure Continues” is a fair example of this principle.

There are many types of physical devices that can act as inertia dampers:

  • Stockbridge damper - absorbs resonant wave motions in wire and support cables, seen on high voltage power lines.[2]
  • Shock absorber - motion redirected as heating of viscous oil forced through a restrictive passage[3]
  • Inerter (mechanical networks) A mechanical analog to an electrical capacitor.[4]
  • Rotary damper - rotary motion is dissipated as heat in a highly viscous fluid or gel. May use a smooth surface rotating cylinder and a smooth surface stationary interior wall with fluid/gel between. For more forceful motion absorption and higher surface area, a paddle wheel or toothed gear is used, with a similarly ribbed or studded stationary interior wall to more forcefully grip the fluid/gel. [5][6]

See also

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References

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  1. ^ Ma, Ruisheng; Bi, Kaiming; Hao, Hong (September 2021). "Inerter-based structural vibration control: A state-of-the-art review". Engineering Structures. 243: 112655. Bibcode:2021EngSt.24312655M. doi:10.1016/j.engstruct.2021.112655.
  2. ^ Markiewicz, M. (29 November 1995), "Optimum dynamic characteristics of Stockbridge dampers for dead-end spans", Journal of Sound and Vibration, 188 (2): 243–256, Bibcode:1995JSV...188..243M, doi:10.1006/jsvi.1995.0589
  3. ^ Dixon, John C. (2008). The shock absorber handbook. Wiley-professional engineering publishing series (2. ed., repr ed.). Chichester: Wiley. ISBN 978-0-470-51020-9.
  4. ^ Chen, M.; Papageorgiou, C.; Scheibe, F.; Wang, F. C.; Smith, M. (2009). "The missing mechanical circuit element" (PDF). IEEE Circuits and Systems Magazine. 9: 10–26. doi:10.1109/MCAS.2008.931738. S2CID 3783744.
  5. ^ Lin Engineering: http://www.linengineering.com/line/contents/stepmotors/Nema17_Damper.aspx Archived 2011-05-02 at the Wayback Machine
  6. ^ Phytron: ftp://ftp.phytron.de/phytron-usa/equipment/damper/dmp-us.pdf[permanent dead link]