laws:hill3d_ki
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| Both sides previous revision Previous revision Next revision | Previous revision | ||
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laws:hill3d_ki [2022/02/20 14:32] ehssen |
laws:hill3d_ki [2023/03/28 18:12] (current) ehssen [List of state variables (if NTEO = 0 or 3)] |
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| |IKAP| 0 = Analytical compliance matrix **not working**\\ 1 = Perturbation compliance matrix| | |IKAP| 0 = Analytical compliance matrix **not working**\\ 1 = Perturbation compliance matrix| | ||
| |MAXIT|Maximum number of iterations during stress integration| | |MAXIT|Maximum number of iterations during stress integration| | ||
| - | |NTYPHP| Type of hardening law (see [[laws:HILL3D_KI#Hardening form|Hardening form]]), no action if NTEO = 1\\ = 1 (Swift hardening) \\ = 2 (Voce hardening) \\ = 3 (Swift hardening) | | + | |NTYPHP| Type of hardening law (see [[laws:HILL3D_KI#Hardening form|Hardening form]]), no action if NTEO = 1\\ = 1 (Swift hardening) \\ = 2 (Voce hardening) \\ = 3 (Ludwick hardening) | |
| |INDAM| 0 (no fatigue damage computation)\\ > 1 (fatigue damage computation)| | |INDAM| 0 (no fatigue damage computation)\\ > 1 (fatigue damage computation)| | ||
| ^Line 2 (4I5)^^ | ^Line 2 (4I5)^^ | ||
| - | |NTE0|0 Classic hardening\\ 1 Teodosiu hardening\\ 2 Teodosiu + Jauman hardening \\ 3 Ziegler hardening \\ 4 Armostrong-Frederick hardening with 2 terms| | + | |NTE0|0 Classic hardening\\ 1 Teodosiu hardening\\ 2 Teodosiu + Jauman hardening \\ 3 Ziegler hardening \\ 4 Armstrong-Frederick hardening with 2 terms| |
| |//if nteo = 1 or nteo= 2, then//|| | |//if nteo = 1 or nteo= 2, then//|| | ||
| |NREAD| = 1 Read the 58 state variables in .f72 (in column)| | |NREAD| = 1 Read the 58 state variables in .f72 (in column)| | ||
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| Ziegler kinematic hardening : $\underline{\dot{X}} = C_{A}\frac{1}{\sigma_{0}} (\underline{\sigma} - \underline{X}).\dot{\overline{\varepsilon}}^{plastic} – G_{A}. \underline{X}. \dot{\overline{\varepsilon}}^{plastic}$\\ | Ziegler kinematic hardening : $\underline{\dot{X}} = C_{A}\frac{1}{\sigma_{0}} (\underline{\sigma} - \underline{X}).\dot{\overline{\varepsilon}}^{plastic} – G_{A}. \underline{X}. \dot{\overline{\varepsilon}}^{plastic}$\\ | ||
| \\ | \\ | ||
| - | **If NETO** = 4: __X__ = __X__1 + __X__2\\ | + | **(If NTEO = 4)**: __X__ = __X__1 + __X__2\\ |
| \\ | \\ | ||
| **Parameters of fatigue law** ONLY IF INDAM > 1 | **Parameters of fatigue law** ONLY IF INDAM > 1 | ||
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| |Q(3):Q(8)|Back stress (__X__)| | |Q(3):Q(8)|Back stress (__X__)| | ||
| |Q(9)| Accumulated plastic equivalent strain divided by $\sqrt{2}$ ($\frac{\underline{\varepsilon^{pl}}}{\sqrt{2}}$ )| | |Q(9)| Accumulated plastic equivalent strain divided by $\sqrt{2}$ ($\frac{\underline{\varepsilon^{pl}}}{\sqrt{2}}$ )| | ||
| + | |Q(10):Q(15)|Plastic strain tensor $\underline{\varepsilon}^p$ (6 components)| | ||
| + | |Q(16):Q(18)|Principal strains $\varepsilon_{I}$, $\varepsilon_{II}$, $\varepsilon_{III}$| | ||
| ==== List of state variables (if NTEO = 4)==== | ==== List of state variables (if NTEO = 4)==== | ||
| |Q(1)| Yield criterion = 0 : the previous step was elastic \\= 1: the previous step was elasto-plastic| | |Q(1)| Yield criterion = 0 : the previous step was elastic \\= 1: the previous step was elasto-plastic| | ||
laws/hill3d_ki.1645363978.txt.gz · Last modified: 2022/02/20 14:32 by ehssen
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