Maxwell Material: Difference between revisions
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| '''[1]''' || Input parameters: | | '''[1]''' || Input parameters: | ||
|- | |- | ||
| Assume a viscous damper with axial stiffness K=150.0kN/mm, viscous parameter C = 100.0kN/(mm/s)^a, an exponent a=0.3 and length equal to 5000mm. The input parameters for the material should be as follows: | |||
| | |||
| # matTag ''K'' ''C'' ''a'' '' L'' | |||
| uniaxialMaterial Maxwell 1 150.0 100.0 0.30 5000.0 | |||
| | |||
| '''[2]''' || Tcl input file for Viscous Damper Calibration | | '''[2]''' || Tcl input file for Viscous Damper Calibration | ||
|- | |- | ||
Revision as of 17:42, 15 February 2011
- Command_Manual
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This command is used to construct a Maxwell material (linear spring and nonlinear dashpot in series). The Maxwell material simulates the hysteretic response of viscous dampers.
| uniaxialMaterial Maxwell $matTag $K $C $a $L |
| $matTag | integer tag identifying material |
| $K | Elastic stiffness of linear spring (to model elastic stiffness of viscous damper) |
| $C | Viscous parameter of damper |
| $a | Viscous damper exponent |
| $L | Viscous damper length |
Examples:
| [1] | Input parameters: | |||||
| Assume a viscous damper with axial stiffness K=150.0kN/mm, viscous parameter C = 100.0kN/(mm/s)^a, an exponent a=0.3 and length equal to 5000mm. The input parameters for the material should be as follows: | # matTag K C a L | uniaxialMaterial Maxwell 1 150.0 100.0 0.30 5000.0 | [2] | Tcl input file for Viscous Damper Calibration | ||
| [3] | OpenSees Example of 1-story steel moment frame with a viscous damper |
References:
| [1] | Olsson, A.K., and Austrell, P-E., (2001), "A fitting procedure for viscoelastic-elastoplastic material models," Proceedings of the Second European Conference on Constitutive Models for Rubber, Germany, 2001. |
| [2] | Ottosen, N.S., and Ristinmaa, M., (1999). "The mechanics of constitutive modelling, (Numerical and thermodynamical topics)," Lund University,Division of Solid Mechanics, Sweden, 1999. |
Code Developed by : by Dr. Dimitrios G. Lignos (McGill University)