Stress Density Material: Difference between revisions
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| style="background:yellow; color:black; width:780px" | '''nDMaterial stressDensity $matTag $mDen $eNot $A $n $nu $a1 $b1 $a2 $b2 $a3 $b3 $fd $muNot $muCyc $sc $M $patm <$ssl1 $ssl2 $ssl3 $ssl4 $ssl5 $ssl6 $ssl7 | | style="background:yellow; color:black; width:780px" | '''nDMaterial stressDensity $matTag $mDen $eNot $A $n $nu $a1 $b1 $a2 $b2 $a3 $b3 $fd $muNot $muCyc $sc $M $patm <$ssl1 $ssl2 $ssl3 $ssl4 $ssl5 $ssl6 $ssl7 $hsl $pmin>''' | ||
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==General Information== | ==General Information== | ||
This nDMaterial object provides the stress density model for sands under monotonic and cyclic loading as set forth by Cubrinovski and Ishihara (1998a,b). The original formulation for this model was applicable to plane strain conditions | This nDMaterial object provides the stress density model for sands under monotonic and cyclic loading as set forth by Cubrinovski and Ishihara (1998a,b). The original formulation for this model was applicable to plane strain conditions and this is the only currently available formulation. | ||
===Notes === | ===Notes === | ||
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set sc 0.0055 | set sc 0.0055 | ||
set M 0.607 | set M 0.607 | ||
nDMaterial | nDMaterial stressDensity 1 $mDen $eNot $A $n $nu $a1 $b1 $a2 $b2 $a3 $b3 $fd $muNot $ muCyc $sc $M $patm | ||
===References=== | ===References=== | ||
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Cubrinovski, M. and Ishihara K. (1998b) 'State concept and modified elastoplasticity for sand modelling,' ''Soils and Foundations,'' 38(4), 213-225. | Cubrinovski, M. and Ishihara K. (1998b) 'State concept and modified elastoplasticity for sand modelling,' ''Soils and Foundations,'' 38(4), 213-225. | ||
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Revision as of 22:58, 28 January 2020
- Command_Manual
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This command is used to construct a multi-dimensional stress density material object for modeling sand behaviour following the work of Cubrinovski and Ishihara (1998a,b). Notee that as of January 2020 this material is still undergoing verification testing.
| nDMaterial stressDensity $matTag $mDen $eNot $A $n $nu $a1 $b1 $a2 $b2 $a3 $b3 $fd $muNot $muCyc $sc $M $patm <$ssl1 $ssl2 $ssl3 $ssl4 $ssl5 $ssl6 $ssl7 $hsl $pmin> |
| $matTag | integer tag identifying material |
| $mDen | mass density |
| $eNot | initial void ratio |
| $A | constant for elastic shear modulus |
| $n | pressure dependency exponent for elastic shear modulus |
| $nu | Poisson's ratio |
| $a1 | peak stress ratio coefficient (etaMax = a1 + b1*Is) |
| $b1 | peak stress ratio coefficient (etaMax = a1 + b1*Is) |
| $a2 | max shear modulus coefficient (Gn_max = a2 + b2*Is) |
| $b2 | max shear modulus coefficient (Gn_max = a2 + b2*Is) |
| $a3 | min shear modulus coefficient (Gn_min = a3 + b3*Is) |
| $b3 | min shear modulus coefficient (Gn_min = a3 + b3*Is) |
| $fd | degradation constant |
| $muNot | dilatancy coefficient (monotonic loading) |
| $muCyc | dilatancy coefficient (cyclic loading) |
| $sc | dilatancy strain |
| $M | critical state stress ratio |
| $patm | atmospheric pressure (in appropriate units) |
Optional steady state line parameters (default values shown for each, be careful with units)
| <$ssl1> | void ratio of quasi steady state (QSS-line) at pressure $pmin (default = 0.877) |
| <$ssl2> | void ratio of quasi steady state (QSS-line) at 10 kPa (default = 0.877) |
| <$ssl3> | void ratio of quasi steady state (QSS-line) at 30 kPa (default = 0.873) |
| <$ssl4> | void ratio of quasi steady state (QSS-line) at 50 kPa (default = 0.870) |
| <$ssl5> | void ratio of quasi steady state (QSS-line) at 100 kPa (default = 0.860) |
| <$ssl6> | void ratio of quasi steady state (QSS-line) at 200 kPa (default = 0.850) |
| <$ssl7> | void ratio of quasi steady state (QSS-line) at 400 kPa (default = 0.833) |
| <$hsl> | void ratio of upper reference state (UR-line) for all pressures (default = 0.895) |
| <$pmin> | pressure corresponding to $ssl1 (default = 1.0 kPa) |
The material formulations for the stressDensity object are "PlaneStrain"
Code Developed by Saumyashuchi Das, University of Canterbury. Maintained by Chris McGann
General Information
This nDMaterial object provides the stress density model for sands under monotonic and cyclic loading as set forth by Cubrinovski and Ishihara (1998a,b). The original formulation for this model was applicable to plane strain conditions and this is the only currently available formulation.
Notes
Usage Examples
The following usage example provides the input parameters for dry pluviated Toyura sand (with initial void ratio e = 0.73) after Cubrinovski and Ishihara (1998b). The units of this analysis are Mg, kN, s, and m.
# mass density set mDen 1.8 # atmospheric pressure set patm 98.1 # stress density model parameters set eNot 0.730 set A 250.0 set n 0.60 set a1 0.58 set b1 0.023 set a2 230.0 set b2 65.0 set a3 79.0 set b3 16.0 set fd 4.0 set muNot 0.22 set muCyc 0.0 set sc 0.0055 set M 0.607 nDMaterial stressDensity 1 $mDen $eNot $A $n $nu $a1 $b1 $a2 $b2 $a3 $b3 $fd $muNot $ muCyc $sc $M $patm
References
Cubrinovski, M. and Ishihara K. (1998a) 'Modelling of sand behaviour based on state concept,' Soils and Foundations, 38(3), 115-127.
Cubrinovski, M. and Ishihara K. (1998b) 'State concept and modified elastoplasticity for sand modelling,' Soils and Foundations, 38(4), 213-225.