We present two meaningful and effective non-ideal constitutive characterizations for a multiple impulsive constraints S comprising a finite number of non-ideal frictionless constraints of codimension 1, described in the geometric setup given by the space–time bundleMof a mechanical system in contact/impact with S. Thanks to the geometric structures associated to the elements of S, we introduce a symmetric characterization, that does not distinguish the elements forming S as regards mechanical behavior, and an asymmetric one that makes this distinction. Both the characterizations provide a generalization of the characterization of ideal multiple constraints presented in Pasquero (Q Appl Math 76(3):547–576, 2018). The iterative nature of these characterizations allows the introduction of two algorithms determining the right velocity of the system in case of single or multiple contact/impact with symmetric or asymmetric constraints S, once the elements forming S and the left velocity of the system are known.We show the effectiveness of the two possible choices with explicit implementations of these algorithms in two significant examples: a simplified Newton’s cradle system for the symmetric characterization and a disk in multiple contact/impact with two walls of a corner for the asymmetric one.

Symmetric and Asymmetric Multiple Impulsive Constraints Without Friction and Their Characterization / Pasquero, Stefano. - In: JOURNAL OF NONLINEAR SCIENCE. - ISSN 0938-8974. - 31:(2021). [10.1007/s00332-021-09718-0]

Symmetric and Asymmetric Multiple Impulsive Constraints Without Friction and Their Characterization

Stefano Pasquero
2021-01-01

Abstract

We present two meaningful and effective non-ideal constitutive characterizations for a multiple impulsive constraints S comprising a finite number of non-ideal frictionless constraints of codimension 1, described in the geometric setup given by the space–time bundleMof a mechanical system in contact/impact with S. Thanks to the geometric structures associated to the elements of S, we introduce a symmetric characterization, that does not distinguish the elements forming S as regards mechanical behavior, and an asymmetric one that makes this distinction. Both the characterizations provide a generalization of the characterization of ideal multiple constraints presented in Pasquero (Q Appl Math 76(3):547–576, 2018). The iterative nature of these characterizations allows the introduction of two algorithms determining the right velocity of the system in case of single or multiple contact/impact with symmetric or asymmetric constraints S, once the elements forming S and the left velocity of the system are known.We show the effectiveness of the two possible choices with explicit implementations of these algorithms in two significant examples: a simplified Newton’s cradle system for the symmetric characterization and a disk in multiple contact/impact with two walls of a corner for the asymmetric one.
2021
Symmetric and Asymmetric Multiple Impulsive Constraints Without Friction and Their Characterization / Pasquero, Stefano. - In: JOURNAL OF NONLINEAR SCIENCE. - ISSN 0938-8974. - 31:(2021). [10.1007/s00332-021-09718-0]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2894639
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