On a Geometrically Exact Theory for Contact Interactions

An exact theory is given of the voltage-step transient under limiting diffusion conditions for an electrodiffusion friction probe of arbitrary convex shape. The actual transient courses are given for the strip, circular, elliptic, triangular, and rectangular probes of any orientation with respect to the flow direction. A simple formula for any probe with a single working electrode of convex shape is suggested to facilitate the calibration of electrodiffusion probes based on the voltage-step transient.

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An Exact Theory of Social Groups and Relations

American Journal of Sociology ◽

10.1086/217841 ◽

1938 ◽

Vol 43 (5) ◽

pp. 790-798 ◽

Cited By ~ 8

Author(s):

Karl Menger

Keyword(s):

Social Groups ◽

Exact Theory

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Probing μeγγ contact interactions with μ→e conversion

Physical Review D ◽

10.1103/physrevd.102.115043 ◽

2020 ◽

Vol 102 (11) ◽

Author(s):

S. Davidson ◽

Y. Kuno ◽

Y. Uesaka ◽

M. Yamanaka

Keyword(s):

Contact Interactions

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Contact interactions in complex fibrous metamaterials

Continuum Mechanics and Thermodynamics ◽

10.1007/s00161-021-01018-y ◽

2021 ◽

Author(s):

Mario Spagnuolo ◽

Antonio M. Cazzani

Keyword(s):

Strain Energy ◽

Point Of View ◽

The Other ◽

Contact Interactions ◽

Coupling Term ◽

Dissipation Potential ◽

Parallel Fibers ◽

Mathematical Point

AbstractIn this work, an extension of the strain energy for fibrous metamaterials composed of two families of parallel fibers lying on parallel planes and joined by connective elements is proposed. The suggested extension concerns the possibility that the constituent fibers come into contact and eventually scroll one with respect to the other with consequent dissipation due to friction. The fibers interact with each other in at least three different ways: indirectly, through microstructural connections that could allow a relative sliding between the two families of fibers; directly, as the fibers of a family can touch each other and can scroll introducing dissipation. From a mathematical point of view, these effects are modeled first by introducing two placement fields for the two fiber families and adding a coupling term to the strain energy and secondly by adding two other terms that take into account the interdistance between the parallel fibers and the Rayleigh dissipation potential (to account for friction).

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