Hysteretic Material: Difference between revisions
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(New page: This command is used to construct a uniaxial bilinear hysteretic material object with pinching of force and deformation, damage due to ductility and energy, and degraded unloading stiffnes...) |
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This command is used to construct a uniaxial bilinear hysteretic material object with pinching of force and deformation, damage due to ductility and energy, and degraded unloading stiffness based on ductility. | This command is used to construct a uniaxial bilinear hysteretic material object with pinching of force and deformation, damage due to ductility and energy, and degraded unloading stiffness based on ductility. | ||
Revision as of 21:08, 3 March 2010
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This command is used to construct a uniaxial bilinear hysteretic material object with pinching of force and deformation, damage due to ductility and energy, and degraded unloading stiffness based on ductility.
| uniaxialMaterial Hysteretic $matTag $s1p $e1p $s2p $e2p <$s3p $e3p> $s1n $e1n $s2n $e2n <$s3n $e3n> $pinchX $pinchY $damage1 $damage2 <$beta> |
| $matTag | integer tag identifying material |
| $s1p $e1p | stress and strain (or force & deformation) at first point of the envelope in the positive direction |
| $s2p $e2p | stress and strain (or force & deformation) at second point of the envelope in the positive direction |
| $s3p $e3p | stress and strain (or force & deformation) at third point of the envelope in the positive direction (optional) |
| $s1n $e1n | stress and strain (or force & deformation) at first point of the envelope in the negative direction |
| $s2n $e2n | stress and strain (or force & deformation) at second point of the envelope in the negative direction |
| $s3n $e3n | stress and strain (or force & deformation) at third point of the envelope in the negative direction (optional) |
| $pinchx | pinching factor for strain (or deformation) during reloading |
| $pinchy | pinching factor for stress (or force) during reloading |
| $damage1 | damage due to ductility: D1(mu-1) |
| $damage2 | damage due to energy: D2(Eii/Eult) |
| $beta | power used to determine the degraded unloading stiffness based on ductility, mu-beta (optional, default=0.0) |
Hysteretic Material
Code Developed by: Micheal Scott & Filip Filippou, UC Berkeley
Images Developed by: Silvia Mazzoni