1997
DOI: 10.1016/s0141-0296(96)00058-2
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Parameter identification for degrading and pinched hysteretic structural concrete systems

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Cited by 90 publications
(47 citation statements)
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“…Paper [173] describes an iterative least squares procedure based on a modified Gauss-Newton approach to perform the parameter identification of an extended version of the BoucWen model that accounts for strength and stiffness degradation by [18].…”
Section: Least-squares Based Identificationmentioning
confidence: 99%
“…Paper [173] describes an iterative least squares procedure based on a modified Gauss-Newton approach to perform the parameter identification of an extended version of the BoucWen model that accounts for strength and stiffness degradation by [18].…”
Section: Least-squares Based Identificationmentioning
confidence: 99%
“…It has been used in an ample range of applications such as vibration of concrete structures (Kunnath et al, 1997), wood joints (Foliente, 1995;Ajavakom et al, 2008), among others.…”
Section: Analytical Modelmentioning
confidence: 99%
“…Additionally, a low a=v ratio, for example, characterizes a soft-soil site while a high a=v ratio characterizes a ÿrm or rock-soil site. These e ects are illustrated in Figure 2, which plots the variation of the elastic ampliÿcation factor a as deÿned by Equation (11). Note that the in uence of soil type is re ected not in the amplitude but in the spectral shape.…”
Section: Elastic Seismic Design Spectrummentioning
confidence: 99%
“…A parametric study was carried out to evaluate the e ect of di erent hysteresis shapes on the dissipated energy. A pinched smooth hysteresis model based on the Baber-Noori formulation [10] but extended by Kunnath et al [11] to include sti ness degradation and strength deterioration was used in the evaluation. Three model types were considered: bilinear, to represent non-degrading systems such as steel; degrading, to represent moderate degrading e ects in structures with well-detailed concrete members; and pinched-degrading, to represent severely degrading systems with very limited energy dissipation capacity.…”
Section: In Uence Of Hysteretic Shape On Energy Demandmentioning
confidence: 99%