BWBN Material: Difference between revisions
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(Created page with '{{CommandManualMenu}} This command is used to construct a uniaxial Bouc-Wen smooth hysteretic material object that incorporates pinching. {| | style="background:yellow; color...') |
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REFERENCES: | 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 | |||
DEVELOPED BY: | |||
Raquibul Hossain, The University of Queensland, Australia | |||
Revision as of 23:07, 4 October 2013
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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 NOTES) |
| $Ao | parameters that control tangent stiffness |
NOTES:
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
DEVELOPED BY: Raquibul Hossain, The University of Queensland, Australia