SAWS Material: Difference between revisions
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== Notes: == | |||
Refer to the figure below for more information, and the reference provided at the end of this page for complete details about modeling assumptions. | Refer to the figure below for more information, and the reference provided at the end of this page for complete details about modeling assumptions. | ||
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== Example Files: == | |||
'' | ''Click to download files'' | ||
[[Media:Test.tcl]] | [[Media:Test.tcl]] | ||
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== Example: Hysteresis == | == Example: Hysteresis == | ||
[[File:TestHysteresis.jpg]] | [[File:TestHysteresis.jpg|700px]] | ||
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== References == | |||
Reference: Folz, B. and Filiatrault, A. (2001). "SAWS - Version 1.0, A Computer Program for the Seismic Analysis of Woodframe Structures", Structural Systems Research Project Report No. SSRP-2001/09, Dept. of Structural Engineering, UCSD, La Jolla, CA . | Reference: Folz, B. and Filiatrault, A. (2001). "SAWS - Version 1.0, A Computer Program for the Seismic Analysis of Woodframe Structures", Structural Systems Research Project Report No. SSRP-2001/09, Dept. of Structural Engineering, UCSD, La Jolla, CA . | ||
Revision as of 08:33, 21 November 2009
This file contains the class definition for SAWSMaterial. SAWSMaterial provides the implementation of a one-dimensional hysteretic model develeped as part of the CUREe Caltech wood frame project.
| uniaxialMaterial SAWS $tag $F0 $FI $DU $S0 $R1 $R2 $R3 $R4 $alph $beta |
| $matTag | integer tag identifying material |
| $F0 | Intercept strength of the shear wall spring element for the asymtotic line to the envelope curve F0 > FI > 0 |
| $FI | Intercept strength of the spring element for the pinching branch of the hysteretic
curve. (FI > 0). |
| $DU | Spring element displacement at ultimate load. (DU > 0). |
| $S0 | Initial stiffness of the shear wall spring element (S0 > 0). |
| $R1 | Stiffness ratio of the asymptotic line to the spring element envelope curve. The
slope of this line is R1 S0. (0 < R1 < 1.0). |
| $R2 | Stiffness ratio of the descending branch of the spring element envelope curve. The
slope of this line is R2 S0. ( R2 < 0). |
| $R3 | Stiffness ratio of the unloading branch off the spring element envelope curve. The
slope of this line is R3 S0. ( R3 1). |
| $R4 | Stiffness ratio of the pinching branch for the spring element. The slope of this line
is R4 S0. ( R4 > 0). |
| $alpha | Stiffness degradation parameter for the shear wall spring element. (ALPHA > 0). |
| $beta | Stiffness degradation parameter for the spring element. (BETA > 0). |
Notes:
Refer to the figure below for more information, and the reference provided at the end of this page for complete details about modeling assumptions.
Example Files:
Click to download files
Example: Hysteresis
References
Reference: Folz, B. and Filiatrault, A. (2001). "SAWS - Version 1.0, A Computer Program for the Seismic Analysis of Woodframe Structures", Structural Systems Research Project Report No. SSRP-2001/09, Dept. of Structural Engineering, UCSD, La Jolla, CA .
Code Developed by: Patxi Uriz, Exponent (Converted from FORTRAN code originally written by Bryan Folz)