BWBN Material: Difference between revisions

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|  '''$n ''' || parameter that controls transition from linear to nonlinear range (as n increases the transition becomes sharper; n is usually grater or equal to 1)  
|  '''$n ''' || parameter that controls transition from linear to nonlinear range (as n increases the transition becomes sharper; n is usually grater or equal to 1)  
|-
|-
|  ''' $gamma $beta ''' || parameters that control shape of hysteresis loop; depending on the values of <math>\gamma</math> and <math>\beta</math> softening, hardening or quasi-linearity can be simulated (look at the NOTES)   
|  ''' $gamma $beta ''' || parameters that control shape of hysteresis loop; depending on the values of <math>\gamma</math> and <math>\beta</math> softening, hardening or quasi-linearity can be simulated (look at the BoucWen Material)   
|-
|-
|  '''$Ao''' ||  parameters that control tangent stiffness
|  '''$Ao''' ||  parameter that controls tangent stiffness
|-
|  '''$q $zetas $p $Shi $deltaShi $lambda''' ||  parameters that control pinching
|-
|  '''$tol''' ||  tolerance
|-
|  '''$maxIter''' ||  maximum iterations
|}
|}
NOTES:




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REFERENCES:
REFERENCES:


1. Raquibul Hossain, Mahmud Ashraf, Jamie E. Padgett(2013). "Risk-based seismic performance assessment of Yielding Shear Panel Device", Engineering Structures, Volume 56, November 2013, Pages 1570–1579
Raquibul Hossain, Mahmud Ashraf, Jamie E. Padgett(2013). "Risk-based seismic performance assessment of Yielding Shear Panel Device", Engineering Structures, Volume 56, November 2013, Pages 1570–1579


2. Raquibul Hossain and Mahmud Ashraf (2012). "Mathematical modelling of yielding shear panel device", Thin-Walled Structures, Volume 59, October 2012, Pages 153–161
Raquibul Hossain and Mahmud Ashraf (2012). "Mathematical modelling of yielding shear panel device", Thin-Walled Structures, Volume 59, October 2012, Pages 153–161


3. Baber, T. T., & Noori, M. N. (1986). Modeling general hysteresis behavior and random vibration application. Journal of Vibration Acoustics Stress and Reliability in Design, 108, 411
Baber, T. T., & Noori, M. N. (1986). Modeling general hysteresis behavior and random vibration application. Journal of Vibration Acoustics Stress and Reliability in Design, 108, 411


DEVELOPED BY:
DEVELOPED BY:
Raquibul Hossain, The University of Queensland, Australia
Raquibul Hossain, The University of Queensland, Australia

Revision as of 05:56, 20 October 2013




This command is used to construct a uniaxial Bouc-Wen smooth hysteretic material object that incorporates pinching.

uniaxialMaterial BWBN $matTag $alpha $ko $n $gamma $beta $Ao $q $zetas $p $Shi $deltaShi $lambda $tol $maxIter

$matTag integer tag identifying material
$alpha ratio of post-yield stiffness to the initial elastic stiffenss (0< <math>\alpha</math> <1)
$ko initial elastic stiffness
$n parameter that controls transition from linear to nonlinear range (as n increases the transition becomes sharper; n is usually grater or equal to 1)
$gamma $beta parameters that control shape of hysteresis loop; depending on the values of <math>\gamma</math> and <math>\beta</math> softening, hardening or quasi-linearity can be simulated (look at the BoucWen Material)
$Ao parameter that controls tangent stiffness
$q $zetas $p $Shi $deltaShi $lambda parameters that control pinching
$tol tolerance
$maxIter maximum iterations


REFERENCES:

Raquibul Hossain, Mahmud Ashraf, Jamie E. Padgett(2013). "Risk-based seismic performance assessment of Yielding Shear Panel Device", Engineering Structures, Volume 56, November 2013, Pages 1570–1579

Raquibul Hossain and Mahmud Ashraf (2012). "Mathematical modelling of yielding shear panel device", Thin-Walled Structures, Volume 59, October 2012, Pages 153–161

Baber, T. T., & Noori, M. N. (1986). Modeling general hysteresis behavior and random vibration application. Journal of Vibration Acoustics Stress and Reliability in Design, 108, 411

DEVELOPED BY: Raquibul Hossain, The University of Queensland, Australia