failures
Unless otherwise specified, data names are accessible in level 3 only.
- a_DAMA
- The crack propagation velocity parameter.
- a_EMC
- The Hosford exponent.
- a_HC_DSSE
- Parameter a if I_The flag is 0, or the failure strain in shear if I_The flag is 1.
- A_Ref
- The reference element surface area.
- a_s
- The linear void nucleation slope.
- a_TBUTCHER_XFEMTBUTC
- The brittle rupture material parameter A (exponent).
- activesuppressed
- Returns non-zero if the entity is set inactive, 0 otherwise.
- Alpha
- The hydrostatic pressure exponent.
- alpha
- When type is COHDISP and shape is EXP, this is the exponent for the traction-separation curve.
- Alpha_0
- The parameter for the initial yield function referring to the beginning of damage.
- Alpha_Exp_Avg_Filter
- The exponential moving average filter:
- Alpha_f
- The parameter for the final yield function referring to rupture.
- Alpha_N
- The scale factor in the normal direction.
- alpha_param
- The exponential shape parameter.
- Alpha_T
- The scale factor in the tangential plane.
- AREA_scale
- The failure scale factor for the area increase.
- attributesmax
- The number of attributes owned by this entity.
- b_HC_DSSE
- Parameter b if I_The flag is 0, or the failure strain in uniaxial-tension if I_The flag is 1.
- b_TBUTCHER_XFEMTBUTC
- The brittle rupture material parameter B (exponent).
- b0
- The strain to fracture for uni-axial tension.
- Beta
- The shear scaling factor.
- Beta_0
- The exponent for initial yield function referring to the beginning of damage.
- Beta_f
- The exponent for final yield function referring to rupture.
- Beta1
- The distribution parameters on bottom surface.
- Beta2
- The distribution parameters on top surface.
- Beta_WILKINS
- The Deviatoric coefficient.
- Biaxf
- The bi-Traction triaxiality limit for applying element size regularization on instability curve.
- BiquadDcrit
- Critical damage for stress softening triggering (default = 0.0).
- c
- The friction parameter for triaxiality.
- 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.
- C_jcook
- The Johnson-Cook strain rate coefficient.
- C_max
- The upper limit for stress or strain.
- C_min
- The lower limit for stress or strain that defines when the maximum value starts to be recorded.
- c0
- The Cockcroft-Latham failure criterion.
- c1_BIQUAD
- The failure plastic strain at uniaxial compression.
- a_DAMA
- The crack propagation velocity parameter.
- c1_constant
- The first constant for failure surface.
- C1_WIERZBICKI
- The 1st parameter.
- c2_BIQUAD
- The failure plastic strain at shear.
- c2_constant
- The second constant for failure surface.
- c2_orthbiquad
- The failure plastic strain in shear.
- C2_WIERZBICKI
- The 2nd parameter.
- c3_BIQUAD
- The failure plastic strain at uniaxial tension.
- c3_constant
- The third constant for failure surface.
- c3_orthbiquad
- The failure plastic strain in uniaxial tension.
- C3_WIERZBICKI
- The 3rd parameter.
- c4_BIQUAD
- The failure plastic strain at plain strain tension.
- c4_constant
- The fourth constant for failure surface.
- c4_orthbiquad
- The failure plastic strain in plane strain tension.
- C4_WIERZBICKI
- The 4th parameter.
- c5_BIQUAD
- The failure plastic strain at biaxial tension.
- c5_constant
- The fifth constant for failure surface.
- c5_orthbiquad
- The failure plastic strain in biaxial tension (same for all directions).
- c6_constant
- The sixth constant for failure surface.
- cfrac
- The rate multiplier.
- Ch_i_f
- The flag for choice of instability or fracture regularization.
- ChangSigma_12
- Shear strength (default = 10E20).
- ChangSigma_1c
- Longitudinal compressive strength (default = 10E20).
- ChangSigma_1t
- Longitudinal tensile strength (default = 10E20).
- ChangSigma_2c
- Transverse compressive strength (default = 10E20).
- ChangSigma_2t
- Transverse tensile strength (default = 10E20).
- ChangTau_max
- Dynamic time relaxation (default = 10E20).
- cockcroft_c
- The exponent used with the element characteristic length to thickness ratio which influences the ductility in in-plane loading.
- coefb
- The damage parameter.
- coefm
- The damage parameter relative to the deformation.
- coefr
- The damage parameter relative to the undeformed material.
- color
- The 1-64 color of the entity.
- comp_dir
- The direction component for compression failure.
- comptyp
- The type of criterion combination (only if NINIEVO > 0).
- config
- The configuration of the entity.
- Cr_core
- The depth in between bottom and surface integration points.
- cri
- The damage initiation criteria.
- crisk
- The critical failure risk for damage initialization.
- D
- The damage accumulation parameter D.
- d_HC_DSSE
- Parameter d if I_The flag is 0, or the instability strain if I_The flag is 1.
- D1
- The 1st parameter.
- D2
- The 2nd parameter.
- D3
- The 3rd parameter.
- D4
- The 4th parameter.
- D5
- The 5th parameter.
- Dadv
- The criterion for the crack advancement.
- damage_init_flag
- The damage value initialization from strain tensors flag.
- damage_init_max
- The damage initialization maximal value.
- Dcrit
- The critical accumulated damage value.
- definedentity
- True if the entity is defined, false otherwise.
- denom
- The denominator strain flag.
- deps0
- The inviscid limit for the strain-rate.
- Df
- The critical damage.
- dinit
- The indicator value for the initial (prior to calculation) fraction damage.
- disp
- The plastic displacement at failure.
- dmax
- The maximum post-fracture damage value.
- dmgevonum
- Table values if greater than 1.
- dmgininum
- Table values if greater than 1.
- dpnck
- The scaling parameter for characteristic failure length approach.
- dsf
- The damage initialization scale factor.
- dtmin
- The minimum time step.
- du
- The ultimate damage.
- E1
- The maximum specific energy.
- E2
- The failure specific energy.
- ecrit
- The scale factor for necking plastic strain table identifier.
- ehill_c
- The c multiplier for biaxial states.
- EI_max
- The failure internal energy.
- EI_ref
- The reference element size.
- El_ref
- The reference element size.
- el_ref_scale
- The reference element size for size scaling table.
- elim
- The strain locus lower threshold.
- elscal
- The scale factor for element size scaling function.
- EN_max
- The failure internal energy in normal direction.
- ener
- The fracture energy.
- epf_biax
- The plastic strain at failure for biaxial tension.
- epf_comp
- The plastic strain at failure for uniaxial compression.
- epf_min
- The minimum plastic strain at failure.
- epf_plane
- The plastic strain at failure for plane strain.
- epf_shear
- The plastic strain at failure for shearing.
- epf_tens
- The plastic strain at failure for uniaxial tension.
- eps_dot_fld
- The reference strain rate value for tab_IDfld.
- eps_dot_ps
- The reference strain rate value for fct_IDps.
- eps_dot_sm
- The reference strain rate value for fct_IDsm.
- eps_eff
- The maximum effective strain.
- eps_max
- The ordinate scale factor for fct_IDps or maximum principal strain if fct_IDps is not defined.
- eps_min
- The minimum principal strain.
- eps_vol
- The maximum volumetric strain.
- EPS1_MAX
- Longitudinal critical strain (default = 10E20).
- EPS2_MAX
- Transverse critical strain (default = 10E20).
- epsbt
- The equivalent plastic necking strain in equi-biaxial tension.
- epscal
- The simple tension failure strain calibrated at the reference element size.
- Epsdot
- The strain rate corresponding to failure strain function.
- epsdotr
- The Johnson-Cook model strain rate parameter.
- epsf_id
- The plastic strain at failure table identifier.
- epsi1
- The intermediate equivalent plastic strain threshold.
- epsii
- The initial equivalent plastic strain threshold.
- Epsilon_11cf
- The failure strain in compression direction 11.
- Epsilon_11cm
- The rupture strain in compression direction 11.
- Epsilon_11tf
- The failure strain in tension direction 11.
- Epsilon_11tm
- The rupture strain in tension direction 11.
- Epsilon_12cf
- The failure strain in compression direction 12.
- Epsilon_12cm
- The rupture strain in compression direction 12.
- Epsilon_12tf
- The failure strain in tension direction 12.
- Epsilon_12tm
- The rupture strain in tension direction 33.
- Epsilon_22cf
- The failure strain in compression direction 22.
- Epsilon_22cm
- The rupture strain in compression direction 22.
- Epsilon_22tf
- The failure strain in tension direction 22.
- Epsilon_22tm
- The rupture strain in tension direction 22.
- Epsilon_23cf
- The failure strain in compression direction 23.
- Epsilon_23cm
- The rupture strain in compression direction 23.
- Epsilon_23tf
- The failure strain in tension direction 23.
- Epsilon_23tm
- The rupture strain in tension direction 23.
- Epsilon_31cf
- The failure strain in compression direction 31.
- Epsilon_31cm
- The rupture strain in compression direction 31.
- Epsilon_31tf
- The failure strain in tension direction 31.
- Epsilon_31tm
- The rupture strain in tension direction 31.
- Epsilon_33cf
- The failure strain in compression direction 33.
- Epsilon_33cm
- The rupture strain in compression direction 33.
- Epsilon_33tf
- The failure strain in tension direction 33.
- Epsilon_33tm
- The rupture strain in tension direction 33.
- Epsilon_Dot_0
- The reference strain rate.
- Epsilon_Dot_ref
- The reference strain rate.
- Epsilon_f1
- The failure tensile strain in direction 1.
- Epsilon_f2
- The failure tensile strain in direction 2.
- Epsilon_maxN
- The failure in normal direction.
- Epsilon_maxT
- The failure relative displacement (elongation) in tangential plane.
- Epsilon_r1
- The rupture tensile strain in direction 1.
- Epsilon_r2
- The rupture tensile strain in direction 2.
- Epsilon_t1
- The maximum strain.
- Epsilon_t2
- The tensile failure strain.
- epsiu
- The ultimate equivalent plastic strain threshold.
- epslim
- The maximum accumulated plastic strain.
- eps_n
- The equivalent plastic strain at void nucleation.
- epsp_min
- Lowest strain rate limit.
- epspst
- The equivalent plastic necking strain in plane-strain.
- epsut
- The equivalent plastic necking strain in uniaxial tension.
- erad1
- The first strain rate value.
- erad2
- The second strain rate value.
- erad3
- The third strain rate value.
- erad4
- The fourth strain rate value.
- erad5
- The fifth strain rate value.
- erad6
- The sixth strain rate value.
- erad7
- The seventh strain rate value.
- erad8
- The eighth strain rate value.
- Eta1
- The distribution parameters on bottom surface.
- Eta2
- The distribution parameters on top surface.
- ET_max
- The failure internal energy in tangent direction.
- evoshap
- The shape of the damage evolution.
- evotype
- The type of the damage evolution.
- exp
- The scale factor for stress softening exponent function.
- exp_ref
- The reference element size for stress softening exponent function.
- expfrac
- The exponential anisotropic fracture coefficient expFrac.
- Exponent_N
- The failure exponent parameter in normal direction.
- Exponent_T
- The failure exponent parameter in tangential plane.
- f_0
- The initial void volume fraction.
- f_c
- The critical void volume fraction at void coalescence.
- f_cutoff
- The cutoff frequency.
- f_flag
- The filter flag
- f_r
- The void volume fraction at ductile failure.
- Factor_Loosemetal
- The loose metal curve calculation value.
- Factor_Marginal
- The marginal FLD curve calculation value.
- Fad_exp
- The fading exponent.
- fadexp
- The post-fracture damage exponent.
- Fading_Exponent_Curve
- The fading exponent curve ID.
- failip
- The number of failed integration point prior to solid element deletion.
- FAILURES_CR_AIR
- The crack depth PVB surface.
- FAILURES_CR_EDGE
- The crack depth exposed surface.
- FAILURES_CR_FOIL
- The crack depth at PVB surface.
- FAILURES_EMA
- The stress filtering period in cycles.
- FAILURES_EXP_N
- The crack growth exponent for subcritical crack growth.
- FAILURES_GRSH3N
- The group identifier for 3 node shell elements.
- FAILURES_GRSH4N
- The group identifier for 4 node shell elements.
- FAILURES_I_FRWAVE
- The failure propagation flag between neighbor elements.
- FAILURES_IMOD
- The relaxation time calculation.
- FAILURES_KIC
- The fracture toughness.
- FAILURES_KTH
- The fatigue threshold.
- FAILURES_RLEN
- The reference length.
- FAILURES_SOFT
- The reduction factor applied to failure criteria when one of the neighbor elements has already failed.
- FAILURES_T_CUT
- The strain rate cutoff period.
- FAILURES_V0
- The crack growth velocity for subcritical crack growth at KIC.
- FAILURES_VC
- The maximum crach propagation velocity glass.
- fcrit
- The scale factor for failure plastic strain table.
- fct_dlim
- The damage limit function identifier.
- fct_exp
- The stress softening exponent function identifier.
- fct_sr
- The strain rate dependency function identifier.
- fct_ID
- The function identifier of specific energy E1 E2 scaling factor.
- Fct_ID_11c
- The strain rate factor function in compression direction 11.
- Fct_ID_11t
- The strain rate factor function in tension direction 11
- Fct_ID_12c
- The strain rate factor function in compression direction 12
- Fct_ID_12t
- The strain rate factor function in tension direction 12
- Fct_ID_22c
- The strain rate factor function in compression direction 22
- Fct_ID_22t
- The strain rate factor function in tension direction 22
- Fct_ID_23c
- The strain rate factor function in compression direction 23
- Fct_ID_23t
- The strain rate factor function in tension direction 23
- Fct_ID_31c
- The strain rate factor function in compression direction 31
- Fct_ID_31t
- The strain rate factor function in tension direction 31
- Fct_ID_33c
- The strain rate factor function in compression direction 33
- Fct_ID_33t
- The strain rate function in tension direction 33
- fct_ID_rate
- The strain-rate dependency factor tabulated function identifier.
- fct_ID_TAB
- The FCT entity.
- fct_ID1
- The function of lower limit for fracture (S-R mode).
- fct_ID2
- The function of upper limit for fracture (S-R mode).
- fct_IDadv
- The failure advancement diagram.
- fct_IDd
- The damage function identifier.
- fct_IDe1c
- The ID of the function of the maximum in-plane major strain versus element size.
- fct_IDel
- The element size factor function identifier.
- fct_IDFN
- The function identifier defining a scale factor for strain rate dependency in normal direction in rupture yield function.
- fct_IDFS
- The function identifier defining a scale factor for strain rate dependency in tangential direction in rupture yield function.
- fct_IDg12
- The ID of the function of the maximum in-plane shear strain gamma12 versus element size.
- fct_IDg13
- The ID of the function of the maximum in-plane shear strain gamma13 versus element size.
- fct_IDON
- The function identifier defining a scale factor for strain rate dependency in normal direction in initial yield function.
- fct_IDOS
- The function identifier defining a scale factor for strain rate dependency in tangential direction in initial yield function.
- fct_IDps
- The maximum principal strain versus strain rate function identifier.
- fct_IDsm
- The ID of the function of the maximum equivalent stress versus strain rate.
- fct_IDt
- The temperature factor function identifier.
- Fct_Ratio
- The ID of the strain ratio function.
- Fcut
- The cutoff frequency for strain rate smoothing.
- Fcut0
- Shell tensor filtering frequency (default = 0.0).
- FLAT
- Specifies the handling method for y-values outside the specified range of x-values.
- Fscale
- The failure strain function scale factor.
- fscale_dlim
- The damage limit function scale factor.
- Fscale_el
- The element size function scale factor.
- fscale_sr
- The scale factor for strain rate dependency function.
- FscaleT
- The temperature function scale factor.
- G_11C
- Fracture energy for compression in direction i (default = Gij^T).
- G_11T
- Fracture energy for tension in direction i (default = 10E20).
- G_12C
- Fracture energy for negative shear in plane ij (default = Gij^T).
- G_12T
- Fracture energy for positive shear in plane ij (default = 10E20).
- G_22C
- Fracture energy for compression in direction i (default = Gij^T).
- G_22T
- Fracture energy for tension in direction i (default = 10E20).
- G_23C
- Fracture energy for negative shear in plane ij (default = Gij^T).
- G_23T
- Fracture energy for positive shear in plane ij (default = 10E20).
- G_31C
- Fracture energy for negative shear in plane ij (default = Gij^T).
- G_31T
- Fracture energy for positive shear in plane ij (default = 10E20).
- G_33C
- Fracture energy for compression in direction i (default = Gij^T).
- G_33T
- Fracture energy for tension in direction i (default = 10E20).
- GAM12_MAX
- Shear critical engineering strain (default = 10E20).
- Gamma
- The strain rate sensitivity parameter.
- Gamma_1
- Coupling factor 1
- Gamma_2
- The coupling factor 2.
- h_chi
- The non-local penalty parameter.
- I_Dam
- The damage calculation flag.
- i_loc
- The damage variable accumulation method flag.
- I_marg
- The marginal value:
- I_The flag
- The input type flag.
- i1dd
- The index of the stress tri-axiality factor in the look-up table.
- i1eta
- The index of the stress triaxiality in the look-up table.
- i2dd
- The index of the plastic strain rate in the look-up table.
- i2thb
- The index of the Lode parameter.
- i3dd
- The index of the porosity in the look-up table.
- i3mcl
- The index of the mesh characteristic element length.
- icard
- The card input format flag.
- Icoup
- Stress/damage coupling flag to create softening.
- icutd
- The flag for activation/deactivation of damage cut-off if stress triaxiality (η) is less than or equal to -1/3.
- id
- The ID of the entity.
- ID_CARD_EXIST
- The ID card exist flag.
- idel
- The element deletion activation in compression flag.
- idlutdd
- The identification number of the look-up table specifying ductile damage function.
- Iduct
- The ductile-brittle materials flag.
- Ifail
- The flag for failure formulation.
- ifail_global
- The failure criterion reduction flag.
- Ifail_sh
- The shell failure flag.
- Ifail_so
- The flag for solid failure model.
- ifiltmso
- The flag for the filtering Müschenborn-Sonne parameter.
- Iform
- The formulation flag.
- ifunmso
- The mSO function identification number.
- ilen
- The flag to choose the element characteristic length formulation.
- Imoy
- The flag for failure 3D model (brick).
- include
- The ID of the include file the entity is organized in.
- includeid
- The ID of the include file the entity is organized in.
- initype
- The type of damage initiation tabulated criterion.
- Inst_start
- The instability start.
- Inst_start_orthbiquad
- The instability start value for localized necking.
- inst
- The flag to activate damage regularization for shells.
- inst_id
- The instability (necking) plastic strain table identifier.
- internalid
- The ID of the entity.
- internalname
- The internal name of the entity.
- interpd
- The type of interpolation between damage curves.
- ipfrcd
- The post-fracture damage flag.
- Irate
- The stress filtering method:
- ireg
- The element size regularization flag.
- Is_Fading_Exponent_A_Curve
- The fading exponent curve flag.
- isencrypted
- The encryption entity.
- ISHAP11C
- Stress softening shape flag for compression in direction ij.
- ISHAP11T
- Stress softening shape flag for tension in direction ij.
- ISHAP12C
- Stress softening shape flag for compression in direction ij.
- ISHAP12T
- Stress softening shape flag for tension in direction ij.
- ISHAP22C
- Stress softening shape flag for compression in direction ij.
- ISHAP22T
- Stress softening shape flag for tension in direction ij.
- ISHAP23C
- Stress softening shape flag for compression in direction ij.
- ISHAP23T
- Stress softening shape flag for tension in direction ij.
- ISHAP31C
- Stress softening shape flag for compression in direction ij.
- ISHAP31T
- Stress softening shape flag for tension in direction ij.
- ISHAP33C
- Stress softening shape flag for compression in direction ij.
- ISHAP33T
- Stress softening shape flag for tension in direction ij.
- ishear
- The flag to take transverse shear components into account (shells only).
- Iside
- The strain rate dependency option.
- ismooth
- The interpolation type (in case of tabulated yield function).
- Istrain
- The engineering or true input strain flag.
- ISYM
- The rupture deactivation flag for compression.
- itab
- The table dependency type (used only if tab_IDfld is a table).
- Ixfem
- The XFEM flag.
- K
- The critical damage integral.
- k_LAD_DAMA
- The crack propagation velocity time constant.
- k_w
- The shear damage growth coefficient.
- K1
- The stiffness in direction 1.
- K2
- The stiffness in direction 2.
- K3
- The stiffness in direction 3.
- Kres1
- The residual tensile stress scale factor in first crack direction.
- Kres2
- The residual tensile stress scale factor in second crack direction.
- ks
- The shear stress factor.
- Lambda
- The lambda exponent.
- lc_global
- The global characteristic failure length.
- lc_model
- The local characteristic failure length.
- lcd1
- The first shear/ductile damage - stress tri-axiality factor curve identification number.
- lcd2
- The second shear/ductile damage - stress tri-axiality factor curve identification number.
- lcd3
- The third shear/ductile damage - stress tri-axiality factor curve identification number.
- lcd4
- The fourth shear/ductile damage - stress tri-axiality factor curve identification number.
- lcd5
- The fifth shear/ductile damage - stress tri-axiality factor curve identification number.
- lcd6
- The sixth shear/ductile damage - stress tri-axiality factor curve identification number.
- lcd7
- The seventh shear/ductile damage - stress tri-axiality factor curve identification number.
- lcd8
- The eighth shear/ductile damage - stress tri-axiality factor curve identification number.
- le_max
- The mesh convergence element length target.
- lode
- Flag to activate load parameter dependence for ductile damage initiation. Valid only for CRI=DUCTILE.
- m
- The 5th parameter.
- M_The flag
- The material selector flag.
- mat_id
- The material entity.
- max_comp_strain
- The maximum strain value in compression for element failure.
- mmc_c1
- The mMC parameter c1.
- mmc_c2
- The mMC parameter c2
- mmc_c3
- The mMC parameter c3.
- mmc_c4
- The mMC parameter c4.
- mmc_k
- The mMC parameter k.
- mmc_n
- The mMC parameter n.
- mmxfm
- A positive integer to indicate the mode mixed form for type COHENRG.
- mode
- The flag to switch failure propagation models between neighbor elements:
- moduleid
- The module ID of the entity.
- mshape
- The curvature ‘shape’ parameter for necking onset curve.
- n
- The damage accumulation parameter n.
- n_EMC
- The stress state sensivity exponent.
- n_f
- The parameter n_f.
- n_hard
- The hardening exponent for shell damage regularization.
- N_n
- The energy exponent in normal direction.
- N_rate
- The N rate.
- N_soft
- The softening exponent for failure.
- N_t
- The energy exponent in tangent direction.
- n_value
- The N-value derived from Hollomon’s Law.
- n_WIERZBICKI
- The hardening exponent.
- name
- The name of the entity.
- Nangle
- The mesh number of experimental angles.
- ncs
- The number of conditions to reach before the element is deleted.
- NDIR
- The number of broken directions prior to element deletion.
- necking_iform
- The necking instability formulation flag.
- necking_inst
- The necking instability flag.
- nf
- The numerical filter for the shear stress factor and the stress triaxiality.
- ninievo
- The number of initiation/evolution criteria.
- NMOD
- Number of failed modes prior to integration point failure (default = 1.0).
- nstep
- The number of cycles for the stress reduction.
- num
- The numerator strain flag.
- ordin
- The maximum strain at failure flag.
- OUT_FLAG
- The flag to activate exhaustive failure information in engine output file.
- outputsuppressed
- Returns non-zero if the entity is set "do not export", 0 otherwise.
- P_min
- The pressure cutoff.
- P_thickfail
- The percentage of through thickness integration points failure limit.
- P_thinfail
- The ratio of thickness reduction before failure.
- p12_Negative
- The failure envelop factor 12 (-).
- p12_Positive
- The failure envelop factor 12 (+).
- p22_Negative
- The failure envelop factor 22 (-).
- param
- The parameter for failure initiation criterion.
- pmax
- The maximum pressure (positive in compression).
- pmin
- The minimum pressure (positive in compression).
- Pflag
- The choice of distribution function interval.
- Phi
- The coulomb friction angle for matrix and delamination.
- plaststrain_a
- The A multiplier.
- plaststrain_b
- The B multiplier
- plaststrain_c
- The C multiplier.
- plaststrain_d
- The D multiplier.
- plaststrain_d1
- The intermediate damage value.
- plaststrain_m
- The M exponent.
- plaststrain_n
- The N exponent.
- Plim
- The hydrostatic pressure limit.
- poolid
- The pool number of the entity.
- poolname
- The pool name of the entity.
- Pscale
- The limit of the definition interval of selected distribution function Real (between 0.0 and 1.0).
- Pthk
- The element suppression criterion (for shells only) :% of thickness in normal direction to delete the element.
- pthickfail
- The ratio of through thickness integration points that must fail before the under-integrated element deleted.
- pthickfail_layers
- The percentage of failed layers prior to shell element deletion.
- PuckFcut
- Stress tensor filtering frequency (default = 0.0).
- q1
- The first Gurson damage coefficient.
- q2
- The second Gurson damage coefficient.
- R_fct_ID_N
- The failure scale factor in normal direction versus strain rate function identifier.
- R_fct_ID_T
- The failure scale factor in tangential plane versus strain rate function identifier.
- r_len
- The radius of non-local variable influence.
- r1
- The scaling factor for c1.
- r2
- The scaling factor for c2.
- r4
- The scaling factor for c3.
- r5
- The scaling factor for c4.
- r11
- The anisotropic fracture coefficient R11.
- r12
- The anisotropic fracture coefficient R12.
- r13
- The anisotropic fracture coefficient R13.
- r22
- The anisotropic fracture coefficient R22.
- r23
- The anisotropic fracture coefficient R23.
- r33
- The anisotropic fracture coefficient R33.
- rad_grbric_id
- The ID of the brick group for volumetric flux.
- Rani
- The average anisotropy factor.
- Rate_Scale
- The abscissa scale factor for strain-rate dependency tabulated function.
- ratio
- The ratio control parameter.
- rel_ehsr
- The thickness to original thickness ratio for element elimination.
- rel_thic
- The percentage relative thickening before failure.
- rel_thin
- The percentage relative thinning before failure.
- rfail
- The ratio of failed plies for element elimination.
- S_Flag
- The flag for specific behavior.
- S12
- Shear critical strength (default = 10E20).
- Sdel
- The scale factor for delamination criteria.
- sfacmso
- The value depending on the filtering option specified by IFILTMSO.
- shape
- The profile shape of the traction-opening curve in the descending part.
- shear
- The tensorial shear strain at failure.
- Shrf
- The shear triaxiality limit for applying element size regularization on instability curve.
- Sig_0
- The initial stress at glass surface.
- sig_max
- The ordinate scale factor for fct_IDsm or maximum equivalent stress if fct_IDsm is not defined.
- SIGMA_11C
- Critical stress for compression in direction i (default = SIGMAij^T).
- SIGMA_11T
- Critical stress for tension in direction i (default = 10E20).
- Sigma_12
- The shear strength.
- SIGMA_12C
- Critical stress for negative shear in plane ij (default = SIGMAij^T).
- Sigma_12f
- The fiber shear strength.
- Sigma_12m
- The matrix shear strength 12.
- SIGMA_12T
- Critical stress for positive shear in plane ij (default = 10E20).
- Sigma_13m
- The matrix shear strength 13.
- Sigma_1c
- The longitudinal compressive strength.
- Sigma_1t
- The longitudinal tensile strength.
- SIGMA_22C
- Critical stress for compression in direction i (default = SIGMAij^T).
- SIGMA_22T
- Critical stress for tension in direction i (default = 10E20).
- SIGMA_23C
- Critical stress for negative shear in plane ij (default = SIGMAij^T).
- Sigma_23m
- The matrix shear strength 23.
- SIGMA_23T
- Critical stress for positive shear in plane ij (default = 10E20).
- Sigma_2c
- The transverse compressive strength.
- Sigma_2t
- The transverse tensile strength.
- SIGMA_31C
- Critical stress for negative shear in plane ij (default = SIGMAij^T).
- SIGMA_31T
- Critical stress for positive shear in plane ij (default = 10E20).
- SIGMA_33C
- Critical stress for compression in direction i (default = SIGMAij^T).
- SIGMA_33T
- Critical stress for tension in direction i (default = 10E20)
- Sigma_3t
- The through thickness tensile strength.
- Sigma_c
- The crush strength.
- Sigma_r
- The fracture stress.
- sigp1_max
- The maximum principal stress.
- sigr
- The initial fracture stress for Tuler-Butcher criterion.
- solver_id
- The solver ID of the entity.
- solverkeyword
- The name of the solver keyword.
- solvername
- The solver name of the entity for entities enabled for name pool, otherwise the internal name of the entity.
- sigr
- The initial fracture stress for Tuler-Butcher criterion.
- soft_exp
- The stress softening exponent.
- sr_ref
- The reference strain-rate for table identifier.
- sr_ref1
- The reference strain rate for size scaling table.
- sr_ref2
- The reference strain rate for strain rate dependency function.
- strain_ratio
- The strain ratio for failure in compression.
- T_max
- The duration parameter for energy failure criteria.
- tab_el
- The element size scaling for failure initiation criterion.
- tab_el_scale
- The element size scaling table identifier.
- tab_ID
- The failure initiation criterion table identifier.
- tab_IDfld
- The table or function identifier of the Forming Limit Diagram.
- table1_ID
- The failure strain table.
- table2_ID
- The instability strain table.
- Tau_max
- The dynamic time relaxation.
- Tau1
- The distribution parameters on bottom surface.
- Tau2
- The distribution parameters on top surface.
- Tdel
- The relaxation time before removing elements.
- temp_max
- The maximum temperature.
- thinning
- The thinning failure value.
- time_max
- The failure time.
- Type
- The type selector:
- type
- The damage evolution type.
- v1, v2, v3
- The maximum value of strain or stress/traction depending on damage initiation type.
- vol_strain
- The trigger volumetric strain for damage.
- volfrac
- The damaged volume fraction to reach before the element is deleted (fully integrated and higher order elements only).
- w1, w2, w3
- The parameters for the material curve.
- wc1
- The mesh regularization parameter linked to the ductility in in-plane loading.
- wcb
- The mesh regularization parameter linked to the ductility in bending.
- wcs
- The mesh regularization parameter linked to the ductility in in-plane membrane loading.
- x_dmgevo
- Temperature values to define temperature dependency. X1 can be blank, if damage initiation constants are temperature independent.
- x_dmgini
- Temperature values to define temperature dependency. X1 can be blank, if damage initiation constants are temperature independent.
- X11
- Longitudinal critical strength (default = 10E20).
- X22
- Transverse critical strength (default = 10E20).
- xi_1, xi_2, xi_3
- The maximum value of strain or stress/traction depending on damage initiation type.
- xscale
- The scale factor for the abscissa of the function.
- XSCALE_0
- The scale factor for the abscissa strain rate for initial function.
- XSCALE_F
- The scale factor for the abscissa strain rate for rupture function.
- Xscale1
- The scale factor for the first variable of table1.
- Xscale2
- The scale factor for the second variable of table1.
- Xscale3
- The scale factor for the first variable of table2.
- Xscale4
- The scale factor for the second variable of table2.
- xue_d0
- The Xue-Wierzbicki parameter D0.
- xue_d1
- The Xue-Wierzbicki parameter D1.
- xue_d2
- The Xue-Wierzbicki parameter D2.
- xue_d3
- The Xue-Wierzbicki parameter D3.
- xue_d4
- The Xue-Wierzbicki parameter D4.
- xue_d5
- The Xue-Wierzbicki parameter D5.
- xue_d6
- The Xue-Wierzbicki parameter D6.
- y
- The maximum value of strain or stress/traction depending on damage initiation type.
- Y0
- The yield energy damage.
- Yc
- The critical energy damage.
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.
2024 - Added new data name NDIR.
2024.1 - Added new data names dmgevonum, dmgininum, flat, lode, x_dmgevo, x_dmgini, xi_1, xi_2, xi_3, and y.
2024.1 - Added new config values 241, 242. Added new data names BiquadDcrit, ChangSigma_1t, ChangSigma_2t, ChangSigma_12, ChangSigma_1c, ChangSigma_2c, ChangTau_max, dmgevonum, dmgininum, EPS1_MAX, EPS2_MAX, Fcut0, flat, G_11C, G_11T, G_12C, G_12T, G_22C, G_22T, G_23C, G_23T, G_31C, G_31T, G_33C, G_33T, GAM12_MAX, Icoup, ISHAP11C, ISHAP11T, ISHAP12C, ISHAP12T, ISHAP22C, ISHAP22T, ISHAP23C, ISHAP23T, ISHAP31C, ISHAP31T, ISHAP33C, ISHAP33T, lode, NMOD, PuckFcut, S12, SIGMA_11C, SIGMA_11T, SIGMA_12C, SIGMA_12T, SIGMA_22C, SIGMA_22T, SIGMA_23C, SIGMA_23T, SIGMA_31C, SIGMA_31T, SIGMA_33C, SIGMA_33T, x_dmgevo, x_dmgini, X11, X22, xi_1, xi_2, xi_3, and y.