ConcreteD: Difference between revisions
(Created page with '{{CommandManualMenu}} This command is used to construct a concrete material based on the Chinese design code. {| | style="background:lime; color:black; width:800px" | '''uniax...') |
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| '''$epst ''' || concrete strain at corresponding to tensile strength* | | '''$epst ''' || concrete strain at corresponding to tensile strength* | ||
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| '''$Ec ''' || concrete initial Elastic modulus* | | '''$Ec ''' || concrete initial Elastic modulus* | ||
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| '''$alphac ''' || compressive descending parameter* | | '''$alphac ''' || compressive descending parameter* | ||
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| '''$alphat ''' || tensile descending parameter* | | '''$alphat ''' || tensile descending parameter* | ||
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| '''$cesp ''' || plastic parameter, recommended values: 0.2~0.3* | | '''$cesp ''' || plastic parameter, recommended values: 0.2~0.3* | ||
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| '''$etap ''' || plastic parameter, recommended values: 1.0~1.3* | | '''$etap ''' || plastic parameter, recommended values: 1.0~1.3* | ||
|} | |} | ||
Revision as of 22:42, 27 May 2015
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This command is used to construct a concrete material based on the Chinese design code.
| uniaxialMaterial ConcreteD $matTag $fc $epsc $ft $epst $Ec $alphac $alphat <$cesp> <$etap> |
| $matTag | integer tag identifying material |
| $fc | concrete compressive strength * |
| $epsc | concrete strain at corresponding to compressive strength* |
| $ft | concrete tensile strength * |
| $epst | concrete strain at corresponding to tensile strength* |
| $Ec | concrete initial Elastic modulus* |
| $alphac | compressive descending parameter* |
| $alphat | tensile descending parameter* |
| $cesp | plastic parameter, recommended values: 0.2~0.3* |
| $etap | plastic parameter, recommended values: 1.0~1.3* |
NOTE: 1. Concrete compressive strength and the corresponding strain should be input as negative values. 2. The value $fc/$epsc and $ft/$epst should be smaller than $Ec. 3. The default value for $cesp and $etap are 0.25 and 1.15, respectively.
EXAMPLE: Example 1: Simulation of compressive test in Karson and Jirsa (1969).
uniaxialMaterial ConcreteD 1 -27.6 -0.002 3 0.0001 35000 1.0 0.1 0.25 1.15
REFERENCES: Reference
[1] Karsan, I. D., and Jirsa, J. O. (1969). “Behavior of concrete under compressive loadings.” Journal of the Structural Division, 95(12), 2535-2563.
[2] Ministry of Housing and Urban-Rural Development of the People’s Republic of China. (2010). “Code for design of concrete structures.” GB50010-2010, Beijing, China.
[3] Ren, X. D. (2010). Multi-scale based stochastic damage constitutive theory for concrete. Doctoral dissertation, Tongji University, Shanghai. (in Chinese)
[4] Wu, J. Y., Li, J., and Faria, R. (2006). “An energy release rate-based plastic-damage model for concrete.” International Journal of Solids and Structures, 43(3), 583-612.
[5] Zeng, S. J. (2012). Dynamic Experimental Research and Stochastic Damage Constitutive Model for Concrete. Doctoral dissertation, Tongji University, Shanghai. (in Chinese)