Hysteretic models are mathematical models capable of simulating complex nonlinear behavior (hysteresis) characterizing mechanical systems and materials used in different fields of engineering, such as aerospace, civil, and mechanical engineering. Some examples of mechanical systems and materials having hysteretic behavior are:

  • materials, such as steel, reinforced concrete, wood;
  • structural elements, such as steel, reinforced concrete, or wood joints;
  • devices, such as seismic isolators[1] and dampers.

Hysteretic models may have a generalized displacement as input variable and a generalized force as output variable, or vice versa. In particular, in rate-independent hysteretic models, the output variable does not depend on the rate of variation of the input one.[2][3]

Rate-independent hysteretic models can be classified into four different categories depending on the type of equation that needs to be solved to compute the output variable:

  • algebraic models
  • transcendental models
  • differential models
  • integral models

List of models

Some notable hysteretic models are listed below with their associated fields.

References

  1. Vaiana, Nicolò; Spizzuoco, Mariacristina; Serino, Giorgio (June 2017). "Wire rope isolators for seismically base-isolated lightweight structures: Experimental characterization and mathematical modeling". Engineering Structures. 140: 498–514. Bibcode:2017EngSt.140..498V. doi:10.1016/j.engstruct.2017.02.057.
  2. Dimian, Mihai; Andrei, Petru (4 November 2013). Noise-driven phenomena in hysteretic systems. Springer. ISBN 9781461413745.
  3. Vaiana, Nicolò; Sessa, Salvatore; Rosati, Luciano (January 2021). "A generalized class of uniaxial rate-independent models for simulating asymmetric mechanical hysteresis phenomena". Mechanical Systems and Signal Processing. 146: 106984. Bibcode:2021MSSP..14606984V. doi:10.1016/j.ymssp.2020.106984. S2CID 224951872.


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