Hybrid
neural network model for history-dependent automotive shock absorbers:
V. Pracny, M. Meywerk and A. Lion
Under certain conditions, an automotive shock absorber displays a very
complex behavior. It is that non-linear system which combines frequency and
amplitude dependent effects. Both effects can be quantified in certain
conditions. The damper is amplitude-dependent, if the amplitude of the force
response depends non-linearly on the displacement amplitude...
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Measurement of Equivalent Stiffness and Damping of Shock Absorbers:
Mohan D. Raoa and Scott Gruenbergb
The paper deals with the testing and analysis methodology in order to
obtain equivalent linear stiffness and damping of automotive shock absorbers
for use in system level chassis. The approaches to modeling shock absorbers,
include analytical (or physical) modeling and parametric modeling...
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Liquid spring shock absorber with controllable magnetorheological
damping:
S-R Hong, Gang Wang, Wei Hu, and N M Wereley
In this type of shock absorber, compressible ?uid springs utilizes the
compressible ?uid which acts on the piswton for developing a rod force. The
rod force so produced is proportional to rod displacement. A compressible
?uid spring comprises of hydraulic cylinder containing a single rod and
piston arrangement...
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