failures

Unless otherwise specified, data names are accessible in level 3 only.

a_DAMA: The crack propagation velocity parameter.; Type: double
a_EMC: The Hosford exponent.; Type: double
a_HC_DSSE: Parameter a if I_The flag is 0, or the failure strain in shear if I_The flag is 1.; Type: double
A_Ref: The reference element surface area.; Type: double
a_s: The linear void nucleation slope.; Type: double
a_TBUTCHER_XFEMTBUTC: The brittle rupture material parameter A (exponent).; Type: double
activesuppressed: Returns non-zero if the entity is set inactive, 0 otherwise.; Type: integer
Alpha: The hydrostatic pressure exponent.; Type: double
alpha: When type is COHDISP and shape is EXP, this is the exponent for the traction-separation curve.; When type is COHENRG and mmxfm is 1, this is the exponent for the mixing formula.; When type is COHENRG and mmxfm is 2, this is the mixing coefficient.; Type: double
Alpha_0: The parameter for the initial yield function referring to the beginning of damage.; Type: double
Alpha_Exp_Avg_Filter: The exponential moving average filter:; 0 - Set to 1; 1 - No filtering (default); Type: double
Alpha_f: The parameter for the final yield function referring to rupture.; Type: double
Alpha_N: The scale factor in the normal direction.; Type: double
alpha_param: The exponential shape parameter.; Type: double array
Alpha_T: The scale factor in the tangential plane.; Type: double
AREA_scale: The failure scale factor for the area increase.; Type: double
attributesmax: The number of attributes owned by this entity.; Type: unsigned integer
b_HC_DSSE: Parameter b if I_The flag is 0, or the failure strain in uniaxial-tension if I_The flag is 1.; Type: double
b_TBUTCHER_XFEMTBUTC: The brittle rupture material parameter B (exponent).; Type: double
b0: The strain to fracture for uni-axial tension.; Type: double
Beta: The shear scaling factor.; Type: double
Beta_0: The exponent for initial yield function referring to the beginning of damage.; Type: double
Beta_f: The exponent for final yield function referring to rupture.; Type: double
Beta1: The distribution parameters $β_{1}$ on bottom surface.; Type: double
Beta2: The distribution parameters $β_{2}$ on top surface.; Type: double
Beta_WILKINS: The Deviatoric coefficient.; Type: double
Biaxf: The bi-Traction triaxiality limit for applying element size regularization on instability curve.; Type: double
c: The friction parameter for triaxiality.; Type: double
c_HC_DSSE: Parameter c if I_The flag is 0, or the failure strain in plain-strain-tension if I_The flag is 1.; Type: double
C_jcook: The Johnson-Cook strain rate coefficient.; Type: double
C_max: The upper limit for stress or strain.; Type: double
C_min: The lower limit for stress or strain that defines when the maximum value starts to be recorded.; Type: double
c0: The Cockcroft-Latham failure criterion.; Type: double
c1_BIQUAD: The failure plastic strain at uniaxial compression.; Type: double
a_DAMA: The crack propagation velocity parameter.; Type: double
c1_constant: The first constant for failure surface.; Type: double
C1_WIERZBICKI: The 1st parameter.; Type: double
c2_BIQUAD: The failure plastic strain at shear.; Type: double
c2_constant: The second constant for failure surface.; Type: double
c2_orthbiquad: The failure plastic strain in shear.; Type: double array
C2_WIERZBICKI: The 2nd parameter.; Type: double
c3_BIQUAD: The failure plastic strain at uniaxial tension.; Type: double
c3_constant: The third constant for failure surface.; Type: double
c3_orthbiquad: The failure plastic strain in uniaxial tension.; Type: double array
C3_WIERZBICKI: The 3rd parameter.; Type: double
c4_BIQUAD: The failure plastic strain at plain strain tension.; Type: double
c4_constant: The fourth constant for failure surface.; Type: double
c4_orthbiquad: The failure plastic strain in plane strain tension.; Type: double array
C4_WIERZBICKI: The 4th parameter.; Type: double
c5_BIQUAD: The failure plastic strain at biaxial tension.; Type: double
c5_constant: The fifth constant for failure surface.; Type: double
c5_orthbiquad: The failure plastic strain in biaxial tension (same for all directions).; Type: double
c6_constant: The sixth constant for failure surface.; Type: double
cfrac: The rate multiplier.; Type: double
Ch_i_f: The flag for choice of instability or fracture regularization.; Type: integer
cockcroft_c: The exponent used with the element characteristic length to thickness ratio which influences the ductility in in-plane loading.; Type: double
coefb: The damage parameter.; Type: double
coefm: The damage parameter relative to the deformation.; Type: double
coefr: The damage parameter relative to the undeformed material.; Type: double
color: The 1-64 color of the entity.; Type: integer
comp_dir: The direction component for compression failure.; Type: integer
comptyp: The type of criterion combination (only if NINIEVO > 0).; 1 - Maximum (default); 2 - Multiplication; Type: integer array
config: The configuration of the entity.; 201 - Radioss FAIL_BIQUAD; 202 - Radioss FAIL_CHANG; 203 - Radioss FAIL_CONNECT; 204 - Radioss FAIL_EMC; 205 - Radioss FAIL_ENERGY; 206 - Radioss FAIL_FABRIC; 207 - Radioss FAIL_FLD; 208 - Radioss FAIL_HASHIN; 209 - Radioss FAIL_JOHNSON; 210 - Radioss FAIL_LAD_DAMA; 211 - Radioss FAIL_NXT; 212 - Radioss FAIL_PUCK; 213 - Radioss FAIL_SNCONNECT; 214 - Radioss FAIL_SPALLING; 215 - Radioss FAIL_TAB; 216 - Radioss FAIL_TAB1; 217 - Radioss FAIL_TBUTCHER; 218 - Radioss FAIL_TENSSTRAIN; 222 - Radioss FAIL_WIERZBICK; 223 - Radioss FAIL_WILKINS; 224 - Radioss FAIL_XFEM_FLD; 225 - Radioss FAIL_XFEM_JOHNS; 226 - Radioss FAIL_XFEM_TBUTC; 227 - Radioss FAIL_HC_DSSE; 228 - Radioss FAIL_ORTHSTRAIN; 232 - Radioss FAIL_GURSON; 233 - Radioss FAIL_MULLINS_OR; 235 - Radioss FAIL_RTCL; 236 - Radioss FAIL_GENE1; 237 - Radioss FAIL_SAHRAEI; 238 – Radioss FAIL_SYAZWAN; 239 – Radioss FAIL_INIEVO; 240 – Radioss FAIL_TAB2; 301 - OptiStruct DMGINI; 302 - OptiStruct DMGEVO; 401 - PAM-CRASH GLOBAL_BEHAVIOR; 402 - PAM-CRASH DUCTILE_CURVES; 403 - PAM-CRASH DUCTILE_LOOKU; 404 - PAM-CRASH SHEAR_CURVES; 405 - PAM-CRASH SHEAR_LOOKU; 406 - PAM-CRASH JOHNSON_COOK; 407 - PAM-CRASH ANISOTROPIC_FRACTURE; 408 - PAM-CRASH XUE_WIERZBICKI; 409 - PAM-CRASH FORMING_LIMIT_DIAGRAM; 410 - PAM-CRASH MODIFIED_MOHR_COULOMB; 411 - PAM-CRASH MUSCHENBORN_SONNE; 412 - PAM-CRASH ENHANCED_HILL_STOREN_RICE; 413 - PAM-CRASH GENERALIZED_NECKING; 414 - PAM-CRASH PLACTIC_STRAIN_SOFTENING; 415 - PAM-CRASH PLASTIC_STRAIN_DAMAGE; 416 - PAM-CRASH HILL_STOREN_RICE; 417 - PAM-CRASH MODIFIED_HILL_STOREN_RICE; 418 - PAM-CRASH RELATIVE_THICKNESS; 419 - PAM-CRASH MAXIMUM_STRAINING; 420 - PAM-CRASH EXTENDED_COCKCROFT_LATHAM; 421 - PAM-CRASH TABLE_DRIVEN_LOOKUP; Type: unsigned integer
Cr_core: The depth in between bottom and surface integration points.; Type: double
cri: The damage initiation criteria.; MAXE - Damage initiated when the strain in any direction reaches the corresponding maximum value.; MAXS - Damage initiated when the stress/traction in any direction reaches the corresponding maximum value.; QUADE - Damage initiated based on quadratic form of strain.; QUADS - Damage initiated based on quadratic form of stress/traction.; Type: string
crisk: The critical failure risk for damage initialization.; Type: double
D: The damage accumulation parameter D.; Type: double
d_HC_DSSE: Parameter d if I_The flag is 0, or the instability strain if I_The flag is 1.; Type: double
D1: The 1st parameter.; Type: double
D2: The 2nd parameter.; Type: double
D3: The 3rd parameter.; Type: double
D4: The 4th parameter.; Type: double
D5: The 5th parameter.; Type: double
Dadv: The criterion for the crack advancement.; Type: double
damage_init_flag: The damage value initialization from strain tensors flag.; 0 - Damage is not initialized (default).; 1 - Damage is initialized.; Type: integer
damage_init_max: The damage initialization maximal value.; Type: double
Dcrit: The critical accumulated damage value.; Type: double
definedentity: True if the entity is defined, false otherwise.; Type: Boolean
denom: The denominator strain flag.; 1: Equivalent strain along X-Z plane; 2: Equivalent strain in X-Y plane; 3: Equivalent strain in Y-Z plane; 4: 1st principal strain; 5: 2nd principal strain; 6: 3rd principal strain; Type: integer
deps0: The inviscid limit for the strain-rate.; Type: double
Df: The critical damage.; Type: double
dinit: The indicator value for the initial (prior to calculation) fraction damage.; Type: double
disp: The plastic displacement at failure.; Type: double array
dmax: The maximum post-fracture damage value.; Type: double
dpnck: The scaling parameter for characteristic failure length approach.; Type: double
dsf: The damage initialization scale factor.; Type: double
dtmin: The minimum time step.; Type: double
du: The ultimate damage.; Type: double
E1: The maximum specific energy.; Type: double
E2: The failure specific energy.; Type: double
ecrit: The scale factor for necking plastic strain table identifier.; Type: double
ehill_c: The c multiplier for biaxial states.; Type: double
EI_max: The failure internal energy.; Type: double
EI_ref: The reference element size.; Type: double
El_ref: The reference element size.; Type: double
el_ref_scale: The reference element size for size scaling table.; Type: double array
elim: The strain locus lower threshold.; Type: double
elscal: The scale factor for element size scaling function.; Type: double array
EN_max: The failure internal energy in normal direction.; Type: double
ener: The fracture energy.; Type: double array
epf_biax: The plastic strain at failure for biaxial tension.; Type: double
epf_comp: The plastic strain at failure for uniaxial compression.; Type: double
epf_min: The minimum plastic strain at failure.; Type: double
epf_plane: The plastic strain at failure for plane strain.; Type: double
epf_shear: The plastic strain at failure for shearing.; Type: double
epf_tens: The plastic strain at failure for uniaxial tension.; Type: double
eps_dot_fld: The reference strain rate value for tab_IDfld.; Type: double
eps_dot_ps: The reference strain rate value for fct_IDps.; Type: double
eps_dot_sm: The reference strain rate value for fct_IDsm.; Type: double
eps_eff: The maximum effective strain.; Type: double
eps_max: The ordinate scale factor for fct_IDps or maximum principal strain if fct_IDps is not defined.; Type: double
eps_min: The minimum principal strain.; Type: double
eps_vol: The maximum volumetric strain.; Type: double
epsbt: The equivalent plastic necking strain in equi-biaxial tension.; Type: double
epscal: The simple tension failure strain calibrated at the reference element size.; Type: double
Epsdot: The strain rate corresponding to failure strain function.; Type: double
epsdotr: The Johnson-Cook model strain rate parameter.; Type: double
epsf_id: The plastic strain at failure table identifier.; Type: entity
epsi1: The intermediate equivalent plastic strain threshold.; Type: double
epsii: The initial equivalent plastic strain threshold.; Type: double
Epsilon_11cf: The failure strain in compression direction 11.; Type: double
Epsilon_11cm: The rupture strain in compression direction 11.; Type: double
Epsilon_11tf: The failure strain in tension direction 11.; Type: double
Epsilon_11tm: The rupture strain in tension direction 11.; Type: double
Epsilon_12cf: The failure strain in compression direction 12.; Type: double
Epsilon_12cm: The rupture strain in compression direction 12.; Type: double
Epsilon_12tf: The failure strain in tension direction 12.; Type: double
Epsilon_12tm: The rupture strain in tension direction 33.; Type: double
Epsilon_22cf: The failure strain in compression direction 22.; Type: double
Epsilon_22cm: The rupture strain in compression direction 22.; Type: double
Epsilon_22tf: The failure strain in tension direction 22.; Type: double
Epsilon_22tm: The rupture strain in tension direction 22.; Type: double
Epsilon_23cf: The failure strain in compression direction 23.; Type: double
Epsilon_23cm: The rupture strain in compression direction 23.; Type: double
Epsilon_23tf: The failure strain in tension direction 23.; Type: double
Epsilon_23tm: The rupture strain in tension direction 23.; Type: double
Epsilon_31cf: The failure strain in compression direction 31.; Type: double
Epsilon_31cm: The rupture strain in compression direction 31.; Type: double
Epsilon_31tf: The failure strain in tension direction 31.; Type: double
Epsilon_31tm: The rupture strain in tension direction 31.; Type: double
Epsilon_33cf: The failure strain in compression direction 33.; Type: double
Epsilon_33cm: The rupture strain in compression direction 33.; Type: double
Epsilon_33tf: The failure strain in tension direction 33.; Type: double
Epsilon_33tm: The rupture strain in tension direction 33.; Type: double
Epsilon_Dot_0: The reference strain rate.; Type: double
Epsilon_Dot_ref: The reference strain rate.; Type: double
Epsilon_f1: The failure tensile strain in direction 1.; Type: double
Epsilon_f2: The failure tensile strain in direction 2.; Type: double
Epsilon_maxN: The failure in normal direction.; Type: double
Epsilon_maxT: The failure relative displacement (elongation) in tangential plane.; Type: double
Epsilon_r1: The rupture tensile strain in direction 1.; Type: double
Epsilon_r2: The rupture tensile strain in direction 2.; Type: double
Epsilon_t1: The maximum strain.; Type: double
Epsilon_t2: The tensile failure strain.; Type: double
epsiu: The ultimate equivalent plastic strain threshold.; Type: double
epslim: The maximum accumulated plastic strain.; Type: double
eps_n: The equivalent plastic strain at void nucleation.; Type: double
epsp_min: Lowest strain rate limit.; Type: double
epspst: The equivalent plastic necking strain in plane-strain.; Type: double
epsut: The equivalent plastic necking strain in uniaxial tension.; Type: double
erad1: The first strain rate value.; Type: double
erad2: The second strain rate value.; Type: double
erad3: The third strain rate value.; Type: double
erad4: The fourth strain rate value.; Type: double
erad5: The fifth strain rate value.; Type: double
erad6: The sixth strain rate value.; Type: double
erad7: The seventh strain rate value.; Type: double
erad8: The eighth strain rate value.; Type: double
Eta1: The distribution parameters $η_{1}$ on bottom surface.; Type: double
Eta2: The distribution parameters $η_{2}$ on top surface.; Type: double
ET_max: The failure internal energy in tangent direction.; Type: double
evoshap: The shape of the damage evolution.; 1 - Linear (default); 2 - Exponential; Type: integer array
evotype: The type of the damage evolution.; 1 - Plastic displacement at failure based (default).; 2 - Fracture energy based.; Type: integer array
exp: The scale factor for stress softening exponent function.; Type: double
exp_ref: The reference element size for stress softening exponent function.; Type: double
expfrac: The exponential anisotropic fracture coefficient expFrac.; Type: double
Exponent_N: The failure exponent parameter in normal direction.; Type: double
Exponent_T: The failure exponent parameter in tangential plane.; Type: double
f_0: The initial void volume fraction.; Type: double
f_c: The critical void volume fraction at void coalescence.; Type: double
f_cutoff: The cutoff frequency.; Type: double
f_flag: The filter flag; 0 - Set to 1; 1 - Exponential moving average filter; 2 - 4-Pole Butterworth filter; Type: integer
f_r: The void volume fraction at ductile failure.; Type: double
Factor_Loosemetal: The loose metal curve calculation value.; Type: double
Factor_Marginal: The marginal FLD curve calculation value.; Type: double
Fad_exp: The fading exponent.; Type: double
fadexp: The post-fracture damage exponent.; Type: double
Fading_Exponent_Curve: The fading exponent curve ID.; Type: entity
failip: The number of failed integration point prior to solid element deletion.; Type: integer
FAILURES_CR_AIR: The crack depth PVB surface.; Type: double
FAILURES_CR_EDGE: The crack depth exposed surface.; Type: double
FAILURES_CR_FOIL: The crack depth at PVB surface.; Type: double
FAILURES_EMA: The stress filtering period in cycles.; Type: integer
FAILURES_EXP_N: The crack growth exponent for subcritical crack growth.; Type: double
FAILURES_GRSH3N: The group identifier for 3 node shell elements.; Type: entity
FAILURES_GRSH4N: The group identifier for 4 node shell elements.; Type: entity
FAILURES_I_FRWAVE: The failure propagation flag between neighbor elements.; Type: integer
FAILURES_IMOD: The relaxation time calculation.; Type: integer
FAILURES_KIC: The fracture toughness.; Type: double
FAILURES_KTH: The fatigue threshold.; Type: double
FAILURES_RLEN: The reference length.; Type: double
FAILURES_SOFT: The reduction factor applied to failure criteria when one of the neighbor elements has already failed.; Type: double
FAILURES_T_CUT: The strain rate cutoff period.; Type: double
FAILURES_V0: The crack growth velocity for subcritical crack growth at KIC.; Type: double
FAILURES_VC: The maximum crach propagation velocity glass.; Type: double
fcrit: The scale factor for failure plastic strain table.; Type: double
fct_dlim: The damage limit function identifier.; Type: entity
fct_exp: The stress softening exponent function identifier.; Type: entity
fct_sr: The strain rate dependency function identifier.; Type: entity
fct_ID: The function identifier of specific energy E1 E2 scaling factor.; Type: entity
Fct_ID_11c: The strain rate factor function in compression direction 11.; Type: entity
Fct_ID_11t: The strain rate factor function in tension direction 11; Type: entity
Fct_ID_12c: The strain rate factor function in compression direction 12; Type: entity
Fct_ID_12t: The strain rate factor function in tension direction 12; Type: entity
Fct_ID_22c: The strain rate factor function in compression direction 22; Type: entity
Fct_ID_22t: The strain rate factor function in tension direction 22; Type: entity
Fct_ID_23c: The strain rate factor function in compression direction 23; Type: entity
Fct_ID_23t: The strain rate factor function in tension direction 23; Type: entity
Fct_ID_31c: The strain rate factor function in compression direction 31; Type: entity
Fct_ID_31t: The strain rate factor function in tension direction 31; Type: entity
Fct_ID_33c: The strain rate factor function in compression direction 33; Type: entity
Fct_ID_33t: The strain rate function in tension direction 33; Type: entity
fct_ID_rate: The strain-rate dependency factor tabulated function identifier.; Type: entity
fct_ID_TAB: The FCT entity.; Type: entity
fct_ID1: The function of lower limit for fracture (S-R mode).; Type: entity
fct_ID2: The function of upper limit for fracture (S-R mode).; Type: entity
fct_IDadv: The failure advancement diagram.; Type: entity
fct_IDd: The damage function identifier.; Type: entity
fct_IDe1c: The ID of the function of the maximum in-plane major strain versus element size.; Type: entity
fct_IDel: The element size factor function identifier.; Type: entity
fct_IDFN: The function identifier defining a scale factor for strain rate dependency in normal direction in rupture yield function.; Type: entity
fct_IDFS: The function identifier defining a scale factor for strain rate dependency in tangential direction in rupture yield function.; Type: entity
fct_IDg12: The ID of the function of the maximum in-plane shear strain gamma12 versus element size.; Type: entity
fct_IDg13: The ID of the function of the maximum in-plane shear strain gamma13 versus element size.; Type: entity
fct_IDON: The function identifier defining a scale factor for strain rate dependency in normal direction in initial yield function.; Type: entity
fct_IDOS: The function identifier defining a scale factor for strain rate dependency in tangential direction in initial yield function.; Type: entity
fct_IDps: The maximum principal strain versus strain rate function identifier.; Type: entity
fct_IDsm: The ID of the function of the maximum equivalent stress versus strain rate.; Type: entity
fct_IDt: The temperature factor function identifier.; Type: entity
Fct_Ratio: The ID of the strain ratio function.; Type: entity
Fcut: The cutoff frequency for strain rate smoothing.; Type: double
Fscale: The failure strain function scale factor.; Type: double
fscale_dlim: The damage limit function scale factor.; Type: double
Fscale_el: The element size function scale factor.; Type: double
fscale_sr: The scale factor for strain rate dependency function.; Type: double
FscaleT: The temperature function scale factor.; Type: double
Gamma: The strain rate sensitivity parameter.; Type: double
Gamma_1: Coupling factor 1; Type: double
Gamma_2: The coupling factor 2.; Type: double
h_chi: The non-local penalty parameter.; Type: double
I_Dam: The damage calculation flag.; Type: integer
i_loc: The damage variable accumulation method flag.; 0: Set to 1; 1: Local damage formulation (default); 2: Non-local damage regularization using the Micromorphic method; 3: Non-local damage regularization using the Peerlings method; Type: integer
I_marg: The marginal value:; 0 - Set to 1 (default); 1 - Predefined shift of the FLD curve of 0.1 and loose metal curve calculation value of 0.02; 2 - Absolute shift of the FLD curve by Factor_Marginal; 3 - Relative shift of the FLD curve by Factor_Marginal; Type: integer
I_The flag: The input type flag.; Type: integer
i1dd: The index of the stress tri-axiality factor in the look-up table.; Type: integer
i1eta: The index of the stress triaxiality in the look-up table.; Type: integer
i2dd: The index of the plastic strain rate in the look-up table.; Type: integer
i2thb: The index of the Lode parameter.; Type: integer
i3dd: The index of the porosity in the look-up table.; Type: integer
i3mcl: The index of the mesh characteristic element length.; Type: integer
icard: The card input format flag.; 1 - Fracture surface parameters input (default).; 2 - Plastic strain at failure input.; Type: integer
icutd: The flag for activation/deactivation of damage cut-off if stress triaxiality (η) is less than or equal to -1/3.; 0 - Damage cut-off is activated. (default); -1 - Damage cut-off is deactivated.; Type: integer
id: The ID of the entity.; Type: unsigned integer
ID_CARD_EXIST: The ID card exist flag.; Type: Boolean
idel: The element deletion activation in compression flag.; 0 - No element deletion in compression. (default); 1 - Element deletion in compression.; Type: integer
idlutdd: The identification number of the look-up table specifying ductile damage function.; Type: entity
Iduct: The ductile-brittle materials flag.; Type: integer
Ifail: The flag for failure formulation.; Type: integer
ifail_global: The failure criterion reduction flag.; 0 - Maximum overall criteria (default); 1 - Minimum overall criteria; 2 - Average overall criteria; 3 - Sum of all criteria; 4 - Element elimination suppressed for all failure/necking/instability models; Type: integer
Ifail_sh: The shell failure flag.; Type: integer
Ifail_so: The flag for solid failure model.; Type: integer
ifiltmso: The flag for the filtering Müschenborn-Sonne parameter.; Type: integer
Iform: The formulation flag.; Type: integer
ifunmso: The mSO function identification number.; Type: entity
ilen: The flag to choose the element characteristic length formulation.; 0 - Initial geometric formulation (default).; 1 - Initial critical timestep formulation.; 2 - Current geometric formulation (for shells only).; Type: integer
Imoy: The flag for failure 3D model (brick).; Type: integer
include: The ID of the include file the entity is organized in.; Type: entity
includeid: The ID of the include file the entity is organized in.; Type: unsigned integer
initype: The type of damage initiation tabulated criterion.; 1 - Plastic strain versus stress triaxiality (versus strain-rate) (default).; 2 - Plastic strain versus shear influence (versus strain-rate).; 3 - Modified plastic strain versus principal plastic strain rate ratio (versus strain-rate) MSFLD.; 4 - Plastic strain versus principal plastic strain rate ratio (versus strain-rate) FLD.; 5 - Plastic strain versus stress state parameter (versus strain-rate).; Type: integer array
Inst_start: The instability start.; Type: double
Inst_start_orthbiquad: The instability start value for localized necking.; Type: double array
inst: The flag to activate damage regularization for shells.; 0 - Default value.; 1 - Necking instability regularization is not activated.; 2 - Necking instability regularization is activated. (default); Type: integer
inst_id: The instability (necking) plastic strain table identifier.; Type: entity
internalid: The ID of the entity.; Type: unsigned integer
internalname: The internal name of the entity.; Type: string
interpd: The type of interpolation between damage curves.; 0 - The interpolation between two damage curves is logarithmic. (default); 1 - The interpolation between two damage curves is linear.; Type: integer
ipfrcd: The post-fracture damage flag.; 0 - Elimination is applied when the damage indicator equals 1.0.; 1 - Post-fracture damage, load-bearing capacity is affected.; 2 - Post-fracture elimination by characteristic failure length; 3 - Plastic strain softening failure model; 4 - Plastic strain damage model; Type: integer
Irate: The stress filtering method:; 0 - Exponential moving average using Ncycles; 1 - Arithmetic average using last 50 cycles; Type: integer
ireg: The element size regularization flag.; 1 - Scale factor versus element size versus strain rate (default).; 2 - Scale factor versus element size versus triaxiality.; Type: integer
Is_Fading_Exponent_A_Curve: The fading exponent curve flag.; Type: Boolean
isencrypted: The encryption entity.; Type: entity
ishear: The flag to take transverse shear components into account (shells only).; 0 - do not consider transverse components (default).; 1 - consider transverse components; Type: integer
Iside: The strain rate dependency option.; 0 - Strain rate dependency only for air (outwards oriented) side; 1 - Strain rate dependency for both sides of the shell; Type: integer
ismooth: The interpolation type (in case of tabulated yield function).; 1 - Linear interpolation. (default); 2 - Logarithmic interpolation base 10.; 3 - Logarithmic interpolation base n.; Type: integer
Istrain: The engineering or true input strain flag.; Type: integer
ISYM: The rupture deactivation flag for compression.; Type: integer
itab: The table dependency type (used only if tab_IDfld is a table).; 1 - Table is the Forming Limit Diagram versus strain rate. (default); 2 - Table is the Forming Limit Diagram versus element size.; Type: integer
Ixfem: The XFEM flag.; Type: integer
K: The critical damage integral.; Type: double
k_LAD_DAMA: The crack propagation velocity time constant.; Type: double
k_w: The shear damage growth coefficient.; Type: double
K1: The stiffness in direction 1.; Type: double
K2: The stiffness in direction 2.; Type: double
K3: The stiffness in direction 3.; Type: double
Kres1: The residual tensile stress scale factor in first crack direction.; Type: double
Kres2: The residual tensile stress scale factor in second crack direction.; Type: double
ks: The shear stress factor.; Type: double
Lambda: The lambda exponent.; Type: double
lc_global: The global characteristic failure length.; Type: double
lc_model: The local characteristic failure length.; Type: double
lcd1: The first shear/ductile damage - stress tri-axiality factor curve identification number.; Type: entity
lcd2: The second shear/ductile damage - stress tri-axiality factor curve identification number.; Type: entity
lcd3: The third shear/ductile damage - stress tri-axiality factor curve identification number.; Type: entity
lcd4: The fourth shear/ductile damage - stress tri-axiality factor curve identification number.; Type: entity
lcd5: The fifth shear/ductile damage - stress tri-axiality factor curve identification number.; Type: entity
lcd6: The sixth shear/ductile damage - stress tri-axiality factor curve identification number.; Type: entity
lcd7: The seventh shear/ductile damage - stress tri-axiality factor curve identification number.; Type: entity
lcd8: The eighth shear/ductile damage - stress tri-axiality factor curve identification number.; Type: entity
le_max: The mesh convergence element length target.; Type: double
m: The 5th parameter.; Type: double
M_The flag: The material selector flag.; Type: integer
mat_id: The material entity.; Type: entity
max_comp_strain: The maximum strain value in compression for element failure.; Type: double
mmc_c1: The mMC parameter c1.; Type: double
mmc_c2: The mMC parameter c2; Type: double
mmc_c3: The mMC parameter c3.; Type: double
mmc_c4: The mMC parameter c4.; Type: double
mmc_k: The mMC parameter k.; Type: double
mmc_n: The mMC parameter n.; Type: double
mmxfm: A positive integer to indicate the mode mixed form for type COHENRG.; Blank - Modes are not mixed (default); 1 - Power law form; 2 - Benzeggagh-Kenane form; Type: unsigned integer
mode: The flag to switch failure propagation models between neighbor elements:; 0 - No failure info propagation (default); 1 - Xfem failure propagation; 2 - Isotropic frontwave propagation; 3 - Directional propagation through element edges; 4 - Directional propagation through edges and diagonals; Type: integer
moduleid: The module ID of the entity.; Type: integer
mshape: The curvature ‘shape’ parameter for necking onset curve.; Type: double
n: The damage accumulation parameter n.; Type: double
n_EMC: The stress state sensivity exponent.; Type: double
n_f: The parameter n_f.; Type: double
n_hard: The hardening exponent for shell damage regularization.; Type: double
N_n: The energy exponent in normal direction.; Type: double
N_rate: The N rate.; Type: integer
N_soft: The softening exponent for failure.; Type: double
N_t: The energy exponent in tangent direction.; Type: double
n_value: The N-value derived from Hollomon’s Law.; Type: double
n_WIERZBICKI: The hardening exponent.; Type: double
name: The name of the entity.; Type: string
Nangle: The mesh number of experimental angles.; Type: integer
ncs: The number of conditions to reach before the element is deleted.; Type: integer
necking_iform: The necking instability formulation flag.; 1 - Incremental formulation (loading path history) (default).; 2 - Direct formulation (no loading path history).; Type: integer
necking_inst: The necking instability flag.; 0 - Instability is not activated (default).; 1 - Instability is activated.; Type: integer
nf: The numerical filter for the shear stress factor and the stress triaxiality.; Type: double
ninievo: The number of initiation/evolution criteria.; Type: integer
nstep: The number of cycles for the stress reduction.; Type: integer
num: The numerator strain flag.; 1: Strain along X axis; 2: Strain along Y axis; 3: Strain along Z axis; 4: 1st principal strain; 5: 2nd principal strain; 6: 3rd principal strain; Type: integer
ordin: The maximum strain at failure flag.; 1: max(eps_xx, eps_yy, eps_zz); 2: eps_xx; 3: eps_yy; 4: eps_zz; 5: 1st principal strain; 6: Equivalent strain in x – z plane; 7: Equivalent strain in x – y plane; 8: Equivalent strain in y – z plane; Type: integer
OUT_FLAG: The flag to activate exhaustive failure information in engine output file.; 0 - No additional output (default); 1 - Activate extended output; Type: integer
outputsuppressed: Returns non-zero if the entity is set "do not export", 0 otherwise.; Type: integer
P_min: The pressure cutoff.; Type: double
P_thickfail: The percentage of through thickness integration points failure limit.; Type: double
P_thinfail: The ratio of thickness reduction before failure.; Type: double
p12_Negative: The failure envelop factor 12 (-).; Type: double
p12_Positive: The failure envelop factor 12 (+).; Type: double
p22_Negative: The failure envelop factor 22 (-).; Type: double
param: The parameter for failure initiation criterion.; Type: double array
pmax: The maximum pressure (positive in compression).; Type: double
pmin: The minimum pressure (positive in compression).; Type: double
Pflag: The choice of distribution function interval.; 0 - Distribution function from is defined between (0, Pscale); 1 - Distribution function from is defined between (Pscale, 1); Type: integer
Phi: The coulomb friction angle for matrix and delamination.; Type: double
plaststrain_a: The A multiplier.; Type: double
plaststrain_b: The B multiplier; Type: double
plaststrain_c: The C multiplier.; Type: double
plaststrain_d: The D multiplier.; Type: double
plaststrain_d1: The intermediate damage value.; Type: double
plaststrain_m: The M exponent.; Type: double
plaststrain_n: The N exponent.; Type: double
Plim: The hydrostatic pressure limit.; Type: double
poolid: The pool number of the entity.; Type: integer
poolname: The pool name of the entity.; Type: string
Pscale: The limit of the definition interval of selected distribution function Real (between 0.0 and 1.0).; Type: double
Pthk: The element suppression criterion (for shells only) :% of thickness in normal direction to delete the element.; Type: double
pthickfail: The ratio of through thickness integration points that must fail before the under-integrated element deleted.; Type: double
pthickfail_layers: The percentage of failed layers prior to shell element deletion.; Type: double
q1: The first Gurson damage coefficient.; Type: double
q2: The second Gurson damage coefficient.; Type: double
R_fct_ID_N: The failure scale factor in normal direction versus strain rate function identifier.; Type: entity
R_fct_ID_T: The failure scale factor in tangential plane versus strain rate function identifier.; Type: entity
r_len: The radius of non-local variable influence.; Type: double
r1: The scaling factor for c1.; Type: double
r2: The scaling factor for c2.; Type: double
r4: The scaling factor for c3.; Type: double
r5: The scaling factor for c4.; Type: double
r11: The anisotropic fracture coefficient R11.; Type: double
r12: The anisotropic fracture coefficient R12.; Type: double
r13: The anisotropic fracture coefficient R13.; Type: double
r22: The anisotropic fracture coefficient R22.; Type: double
r23: The anisotropic fracture coefficient R23.; Type: double
r33: The anisotropic fracture coefficient R33.; Type: double
rad_grbric_id: The ID of the brick group for volumetric flux.; Type: entity
Rani: The average anisotropy factor.; Type: double
Rate_Scale: The abscissa scale factor for strain-rate dependency tabulated function.; Type: double
ratio: The ratio control parameter.; Type: double
rel_ehsr: The thickness to original thickness ratio for element elimination.; Type: double
rel_thic: The percentage relative thickening before failure.; Type: double
rel_thin: The percentage relative thinning before failure.; Type: double
rfail: The ratio of failed plies for element elimination.; Type: double
S_Flag: The flag for specific behavior.; 1 - Equivalent strain input. No additional input lines, except for Failure_ID (default); 2 - Equivalent strain input with element length and temperature scale factors; 3 - Maximum principal tensile strain input with element length and temperature scale factors; 11 - Equivalent engineering strain input; 12 - Equivalent engineering strain input with element length and temperature scale factors; 13 - Maximum engineering principal tensile strain input with element length and temperature scale factors; 21 - Equivalent true strain input; 22 - Equivalent true strain input with element length and temperature scale factors; 23 - Maximum true principal tensile strain input with element length and temperature scale factors; Type: integer
Sdel: The scale factor for delamination criteria.; Type: double
sfacmso: The value depending on the filtering option specified by IFILTMSO.; Type: double
shape: The profile shape of the traction-opening curve in the descending part.; LIN - Linear shape; EXP - Exponential shape; Type: string
shear: The tensorial shear strain at failure.; Type: double
Shrf: The shear triaxiality limit for applying element size regularization on instability curve.; Type: double
Sig_0: The initial stress at glass surface.; Type: double
sig_max: The ordinate scale factor for fct_IDsm or maximum equivalent stress if fct_IDsm is not defined.; Type: double
Sigma_12: The shear strength.; Type: double
Sigma_12f: The fiber shear strength.; Type: double
Sigma_12m: The matrix shear strength 12.; Type: double
Sigma_13m: The matrix shear strength 13.; Type: double
Sigma_1c: The longitudinal compressive strength.; Type: double
Sigma_1t: The longitudinal tensile strength.; Type: double
Sigma_23m: The matrix shear strength 23.; Type: double
Sigma_2c: The transverse compressive strength.; Type: double
Sigma_2t: The transverse tensile strength.; Type: double
Sigma_3t: The through thickness tensile strength.; Type: double
Sigma_c: The crush strength.; Type: double
Sigma_r: The fracture stress.; Type: double
sigp1_max: The maximum principal stress.; Type: double
sigr: The initial fracture stress for Tuler-Butcher criterion.; Type: double
solver_id: The solver ID of the entity.; Type: integer
solverkeyword: The name of the solver keyword.; Type: string
solvername: The solver name of the entity for entities enabled for name pool, otherwise the internal name of the entity.; Type: string
sigr: The initial fracture stress for Tuler-Butcher criterion.; Type: double
soft_exp: The stress softening exponent.; Type: double
sr_ref: The reference strain-rate for table identifier.; Type: double
sr_ref1: The reference strain rate for size scaling table.; Type: double
sr_ref2: The reference strain rate for strain rate dependency function.; Type: double
strain_ratio: The strain ratio for failure in compression.; Type: double
T_max: The duration parameter for energy failure criteria.; Type: double
tab_el: The element size scaling for failure initiation criterion.; Type: entity array
tab_el_scale: The element size scaling table identifier.; Type: entity
tab_ID: The failure initiation criterion table identifier.; Type: entity array
tab_IDfld: The table or function identifier of the Forming Limit Diagram.; Type: entity
table1_ID: The failure strain table.; Type: entity
table2_ID: The instability strain table.; Type: entity
Tau_max: The dynamic time relaxation.; Type: double
Tau1: The distribution parameters $τ_{1}$ on bottom surface.; Type: double
Tau2: The distribution parameters $τ_{2}$ on top surface.; Type: double
Tdel: The relaxation time before removing elements.; Type: double
temp_max: The maximum temperature.; Type: double
thinning: The thinning failure value.; Type: double
time_max: The failure time.; Type: double
Type: The type selector:; 0 - Set to 1; 1 - Maximum first principal stress is stored (default); 2 - Maximum 1st principal strain is stored; Type: integer
type: The damage evolution type.; COHDISP - Damage index evaluated by displacement; COHENRG - Damage index evaluated by energy dissipated; Type: string
v1, v2, v3: The maximum value of strain or stress/traction depending on damage initiation type.; Type: double
vol_strain: The trigger volumetric strain for damage.; Type: double
volfrac: The damaged volume fraction to reach before the element is deleted (fully integrated and higher order elements only).; Type: double
w1, w2, w3: The parameters for the material curve.; When type is COHDISP, only w1 is needed:; w1 - The separation evaluated from damage initiation to failure.; w2 - Must be blank; w3 - Must be blank.; When type is COHENRG, the parameters are the energy that can be dissipated in pure normal and pure shear separation:; w1 - The energy dissipated in mode I; w2 - The energy dissipated in mode II; w3 - The energy dissipated in mode III; When type is COHENRG with mmxfm blank:; w1 - The energy dissipated; w2 - Must be blank; w3 - Must be blank.; Type: double
wc1: The mesh regularization parameter linked to the ductility in in-plane loading.; Type: double
wcb: The mesh regularization parameter linked to the ductility in bending.; Type: double
wcs: The mesh regularization parameter linked to the ductility in in-plane membrane loading.; Type: double
xscale: The scale factor for the abscissa of the function.; Type: double
XSCALE_0: The scale factor for the abscissa strain rate for initial function.; Type: double
XSCALE_F: The scale factor for the abscissa strain rate for rupture function.; Type: double
Xscale1: The scale factor for the first variable of table1.; Type: double
Xscale2: The scale factor for the second variable of table1.; Type: double
Xscale3: The scale factor for the first variable of table2.; Type: double
Xscale4: The scale factor for the second variable of table2.; Type: double
xue_d0: The Xue-Wierzbicki parameter D0.; Type: double
xue_d1: The Xue-Wierzbicki parameter D1.; Type: double
xue_d2: The Xue-Wierzbicki parameter D2.; Type: double
xue_d3: The Xue-Wierzbicki parameter D3.; Type: double
xue_d4: The Xue-Wierzbicki parameter D4.; Type: double
xue_d5: The Xue-Wierzbicki parameter D5.; Type: double
xue_d6: The Xue-Wierzbicki parameter D6.; Type: double
Y0: The yield energy damage.; Type: double
Yc: The critical energy damage.; Type: double

Version History

2019

2019.1 - Added new data names FAILURES_CR_AIR, FAILURES_CR_EDGE, FAILURES_CR_FOIL, FAILURES_EMA, FAILURES_EXP_N, FAILURES_GRSH3N, FAILURES_GRSH4N, FAILURES_I_FRWAVE, FAILURES_IMOD, FAILURES_KIC, FAILURES_KTH, FAILURES_RLEN, FAILURES_SOFT, FAILURES_T_CUT, FAILURES_V0 and FAILURES_VC.

2020 - Added new data names alpha, Alpha_Exp_Avg_Filter, C_max, C_min, color_rgb, Cr_core, cri, Factor_Loosemetal, Factor_Marginal, I_marg, Irate, mmxfm, mode, shape, Type, type, v1, v2, v3, w1, w2 and w3. Added new config values 301 and 302.

2020.1 - Added new data names C0, f_cutoff, f_flag, solverkeyword and xscale.

2021.1 – Added new data name epsp_min. Added new config values 401, 402, 403, 404, 405, 406, 407, 408, 409, 410, 411, 412, 413, 414, 415, 416, 417, 418, 419, 420, 421. Added new data names cfrac, cockcroft_c, crisk, dinit, dmax, dpnck, du, ehill_c, elim, epsbt, epsdotr, epsi1, epsii, epsiu, epslim, epspst, epsut, erad1, erad2, erad3, erad4, erad5, erad6, erad7, erad8, expfrac, fadexp, i1dd, i1eta, i2dd, i2thb, i3dd, i3mcl, icutd, idlutdd, ifail_global, ifiltmso, ifunmso, interpd, ipfrcd, ks, lc_global, lc_model, lcd1, lcd2, lcd3, lcd4, lcd5, lcd6, lcd7, lcd8, mmc_c1, mmc_c2, mmc_c3, mmc_c4, mmc_k, mmc_n, mshape, nf, plaststrain_a, plaststrain_b, plaststrain_c, plaststrain_d, plaststrain_d1, plaststrain_m, plaststrain_n, r11, r12, r13, r22, r23, r33, rel_ehsr, rel_thic, rel_thin, rfail, sfacmso, wc1, wcb, wcs, xue_d0, xue_d1, xue_d2, xue_d3, xue_d4, xue_d5, and xue_d6.

2021.1 - Added new data names moduleid, poolid, poolname, and solver_id.

2021.2 - Added new config value 232 and new data names a_s, eps_n, f_0, f_c, f_r, h_chi, i_loc, k_w, q1, q2, and r_len. Added new data names internalname and solvername.

2022 - Added new config value 233. Added new data names coefb, coefm and coefr. Added new S_Flag values 11, 12, 13, 21, 22, 23.

2022.1 - Added new data names A_Ref, Beta1, Beta2, Biaxf, C_jcook, c1_orthbiquad, c2_orthbiquad, c3_orthbiquad, c4_orthbiquad, c5_orthbiquad, deps0, El_ref, Eta1, Eta2, fct_ID_rate, Inst_start_orthbiquad, Iside, Kres1, Kres2, le_max, Nangle, OUT_FLAG, Pflag, Pscale, rad_grbric_id, Rate_Scale, Shrf, Sig_0, strdef, Tau1, Tau2, and Tdel.

2022.3 - Added new config values 235, 236 and 237. Added following new data names comp_dir, denom, dtmin, eps_dot_fld, eps_dot_ps, eps_dot_sm, eps_eff, eps_max, eps_min, eps_vol, epscal, fct_IDe1c, fct_IDg12, fct_IDg13, fct_IDps, fct_IDsm, Fct_Ratio, idel, inst, ismooth, itab, max_comp_strain, n_hard, ncs, nstep, num, ordin, pmax, pmin, pthickfail, shear, sig_max, sigp1_max, sigr, strain_ratio, tab_IDfld, temp_max, thinning, time_max, vol_strain, and volfrac.

2023 - Added new config value 238. 239, and 240. Added new data names alpha_param, c1_constant, c2_constant, c3_constant, c4_constant, c5_constant, c6_constant, comptyp, damage_init_flag, damage_init_max, disp, dsf, ecrit, el_ref_scale, elscal, ener, epf_biax, epf_comp, epf_min, epf_plane, epf_shear, epf_tens, epsf_id, evoshap, evotype, exp, exp_ref, failip, fcrit, fct_dlim, fct_exp, fct_sr, fscale_dlim, fscale_sr, icard, ilen, initype, inst_id, ireg, ishear, n_value, necking_iform, necking_inst, ninievo, param, pthickfail_layers, soft_exp, sr_ref, sr_ref1, sr_ref2, tab_el, tab_el_scale, and tab_ID.