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--- laws:zdmg [2019/11/14 13:30]
helene [Reaped NPOINT times (2G10.0) (If NPOINT > 0)]
+++ laws:zdmg [2020/08/25 15:46] (current)
@@ Line 35: / Line 35: @@
 ==== Integer parameters ====
-^(I5)^^
+^Line 1 (8I5)^^
 |NINTV| Number of sub-steps used to integrate numerically the constitutive equation in a time step|
-|NPOINT| = -1  Law described by parameters (LUDWIK) \\ __**LUDWIK law:**__ SIG = SIGY + AKP*(EPSP∗∗ANP)))|
+|NPOINT| = -2  Law described by parameters (SWIFT) \\ __**SWIFT law:**__ SIG = AKP*(EPSP + EPS0)∗∗ANP|
+|:::| = -1  Law described by parameters (LUDWIK) \\ __**LUDWIK law:**__ SIG = SIGY + AKP*(EPSP∗∗ANP)|
 |:::| = 0   Law described by parameters (VOCE) \\ __**VOCE law :**__ SIG = SIGY + AKP*(1-EXP(-ANP*EPSP))|
 |:::| > 0   Law described by points|
@@ Line 51: / Line 52: @@
 ==== Real parameters ====
-^Line 1 (6G10.0)^^
+^Line 1 (8G10.0)^^
 |ANU| POISSON's ratio|
 |DNMAX| = 0  For EP without damage|
@@ Line 65: / Line 66: @@
 |VISCO| = Viscosity parameter (unit: time)|
 |THICK| = Thickness for plane state|
-^Line 2 (6G10.0)^^
+^Line 2 (3G10.0)^^
 |POND| = Weight of volumetric energy|
 |:::| (= 0 by default)|
@@ Line 72: / Line 73: @@
 |FMULP| = Slope multiplicator|
 |:::| (= 1 by default)|
-^Line 3 (6G10.0) (If NPOINT= -1)^^
+^Line 3 (2G10.0) - Repeated NPOINT times (if NPOINT>0)^^
+|EPS| = Strain for virgin by uniaxial testing|
+|SIG| = Effective stress related to measured stress in tensile state|
+|:::| :!: \\ 1) Effective stress-strain curve with hardening and softening phenomenon\\ 2) The first point must be : \\ $\sigma_{y}$ = The initial yiled limit \\ $\epsilon_{e}$ = $\sigma_{y}$ / E |
+^Line 3 + NPOINT (2G10.0) - Repeated NPOINT times (if NPOINT>0)^^
+|DSHEAR| = Deviatoric damage variable|
+|B| = Damage strenghthening force (Mpa)|FIXME
+|:::| :!: \\ 1) Possible for hardening and softening curve\\ 2) The first point must be : \\ $d$ = 0 \\ $B_{0}$ = The initial damage limit |
+{{  :laws:dam-ep_fig1.png?500  |}}
+{{  :laws:dam-ep_fig2.png?500  |}}
+**If NPOINT= -2**
+^Line 3 (6G10.0)^^
+|E| = YOUNG's elastic modulus|
+|EPS0| = EPS0|
+|AKP| = SWIFT hardening coefficient|
+|ANP| = SWIFT hardening exponent|
+|B0| = Initial damage limit|
+|DTG| = Damage tangent modulus|
+**If NPOINT= -1**
+^Line 3 (6G10.0)^^
 |E| = YOUNG's elastic modulus|
 |SIGY| = Lower yield limit|
@@ Line 79: / Line 99: @@
 |B0| = Initial damage limit|
 |DTG| = Damage tangent modulus|
-^Line 3 (6G10.0) (If NPOINT= 0)^^
+**If NPOINT= 0**
+^Line 3 (6G10.0) ^^
 |E| = YOUNG's elastic modulus|
 |SIGY| = Lower yield limit|
@@ Line 86: / Line 107: @@
 |B0| = Initial damage limit|
 |DTG| = Damage tangent modulus|
-==== Repeated NPOINT times (2G10.0) (If NPOINT > 0)====
-|EPS| = Strain for virgin by uniaxial testing|
-|SIG| = Effective stress related to measured stress in tensile state|
-|:::| :!: \\ 1) Effective stress-strain curve with hardening and softening phenomenon\\ 2) The first point must be : \\ $\sigma_{y}$ = The initial yiled limit \\ $\epsilon_{e}$ = $\sigma_{y}$ / E |
-==== Reaped NPOINT times (2G10.0) (If NPOINT > 0)====
-|d| = Deviatoric damage variable|
-|B| = Damage strenghthening force (Mpa)|
-|:::| :!: \\ 1) Possible for hardening and softening curve\\ 2) The first point must be : \\ $d$ = 0 \\ $B_{0}$ = The initial damage limit |
 ===== Stresses =====
 ==== Number of stresses ====

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