# MICRESS binary # ************** # version number: 7.003 (Windows) # compiled: 07/08/2020 # compiler version: Intel 1800 20180823 # executable architecture: x64 # Thermo-Calc coupling: enabled # Version: 21 # Link Date: Mon Jan 14 09:51:04 2019 # OS Name: WinNT # Build Date: 18718 # Compiler: Intel(R) Visual Fortran Compiler Version 16.0.4.246 Build 20160811 # OpenMP: enabled # ('double precision' binary) Miscellanea *********** Date and time: 23/10/2020 (14:32) User: mmecozzi Machine: TUD258679 Driving file: C:/MICRESS_7.003/Input/Pearlite dissolution/PearliteDiss_TQpear_1Cs-1_Portion1_red1_in.txt The data compression is done with 'zlib' (cf. http://www.zlib.net/). The routine for appending is loosely derived from the 'gzappend.c' example. Geometry ******** cellsX, cellsY, cellsZ = 500, 1, 500 deltaX, deltaY, deltaZ [cm] = 5.0000E-07, 5.0000E-07, 5.0000E-07 Model ***** Simulation with concentration coupling Simulation without release of latent heat Boundary Conditions ******************* In W-direction symmetric boundary condition for phase field In E-direction symmetric boundary condition for phase field In B-direction symmetric boundary condition for phase field In T-direction symmetric boundary condition for phase field In W-direction symmetric boundary condition for concentration field In E-direction symmetric boundary condition for concentration field In B-direction symmetric boundary condition for concentration field In T-direction symmetric boundary condition for concentration field Unit-cell model symmetric with respect to the x/y diagonal plane not activated Database ******** Name of Thermo-Calc *.GES5 file: C:\MICRESS_7.003\GES_file\FeCMn Interval for updating thermodynamic data [s] = 1.0000 Components ********** Concentration in weight percent wt% The database contains the following components: 1: C 2: FE 3: MN MICRESS component indexing 0 -> FE (database) 1 -> C (database) 2 -> MN (database) Number of dissolved constituents = 2 Phases ****** Selection of Phases ******************* The database contains 3 phases: 1: BCC_A2 2: CEMENTITE 3: FCC_A1 MICRESS phase indexing 0 -> LIQUID 1 -> FCC_A1 (database) 2 -> BCC_A2 (database) 3 -> CEMENTITE (database) Input/Output Format for Orientations ************************************ Grain orientations will be defined by 2D angles. Phase Properties **************** Phase 0 ( LIQUID ) ------------------ Molar volume = 10.000 [cm**3/mol] Phase 1 ( FCC_A1 ) ------------------ No recrystallisation Anisotropic Tetragonal symmetry No categorization Molar volume = 7.1824 [cm**3/mol] Phase 2 ( BCC_A2 ) ------------------ No recrystallisation Anisotropic Cubic crystal symmetry No categorization Molar volume = 7.2757 [cm**3/mol] Phase 3 ( CEMENTITE ) --------------------- No recrystallisation Isotropic No categorization Molar volume = 7.6300 [cm**3/mol] Phase Interactions ****************** 0 (LIQUID) / 1 (FCC_A1) ------------------------- Interaction will not be simulated. 0 (LIQUID) / 2 (BCC_A2) ------------------------- Interaction will not be simulated. 0 (LIQUID) / 3 (CEMENTITE) ---------------------------- Interaction will not be simulated. 1 (FCC_A1) / 1 (FCC_A1) ------------------------- Interaction will be simulated. Interfacial energy sigma = 7.60000E-05 [J/cm**2] Kinetic coefficient mu = 5.00000E-08 [cm**4/(Js)] Misorientation will not be considered. 1 (FCC_A1) / 2 (BCC_A2) ------------------------- Interaction will be simulated. Averaging coefficient Av = +0.50 Maximal driving force dGMax = 100.00 [J/cm**3] Interfacial energy sigma = 1.00000E-05 [J/cm**2] Mu is temperature dependent! file name : C:\MICRESS_7.003\Mobility\M03.5e-6Q140.txt Misorientation will not be considered. Phases have an isotropic interaction. TC-Coupling activated No relinearisation is done per Interface! Redistribution characteristics of components: C: normal normal MN: nple nple 1 (FCC_A1) / 3 (CEMENTITE) ---------------------------- Interaction will be simulated. Averaging coefficient Av = +1.00 Maximal driving force dGMax = 100.00 [J/cm**3] Interfacial energy sigma = 7.00000E-06 [J/cm**2] Mu is temperature dependent! file name : C:\MICRESS_7.003\Mobility\M03.5e-6Q140.txt Phases have an isotropic interaction. TC-Coupling activated No relinearisation is done per Interface! Redistribution characteristics of components: C: normal normal MN: nple nple 2 (BCC_A2) / 2 (BCC_A2) ------------------------- Interaction will be simulated. Interfacial energy sigma = 7.20000E-05 [J/cm**2] Kinetic coefficient mu = 5.00000E-08 [cm**4/(Js)] Misorientation will not be considered. 2 (BCC_A2) / 3 (CEMENTITE) ---------------------------- Interaction will be simulated. Averaging coefficient Av = +1.00 Maximal driving force dGMax = 100.00 [J/cm**3] Interfacial energy sigma = 1.00000E-05 [J/cm**2] Kinetic coefficient mu = 5.00000E-07 [cm**4/(Js)] Phases have an isotropic interaction. TC-Coupling activated No relinearisation is done per Interface! 3 (CEMENTITE) / 3 (CEMENTITE) ------------------------------- Interaction will not be simulated. Diffusion ********* Diffusion of component C in phase LIQUID will not be solved. Diffusion of component C in phase FCC_A1 will be solved with diffusion coefficient values from database ('global') Diffusion of component C in phase BCC_A2 will be solved with diffusion coefficient values from database ('global') Diffusion of component C in phase CEMENTITE will not be solved. Diffusion of component MN in phase LIQUID will not be solved. Diffusion of component MN in phase FCC_A1 will be solved with diffusion coefficient values from database ('global') Diffusion of component MN in phase BCC_A2 will be solved with diffusion coefficient values from database ('global') Diffusion of component MN in phase CEMENTITE will not be solved. Interval for updating diffusion coefficients data: 5.0000 [s] Initial Microstructure ********************** Grains will be positioned according to input file File name for initial microstructure: C:\MICRESS_7.003\Korn\pearlite_micro\micro_from_pgm_1_red1.txt Treatment of data: n CellsX for initial microstructure: 500 CellsZ for initial microstructure: 500 Number of grains = 89 Grain number 1 Phase number : 2 Rotation angle : 86.0000000000000 degree Grain number 2 Phase number : 2 Rotation angle : 66.0000000000000 degree Grain number 3 Phase number : 2 Rotation angle : 78.0000000000000 degree Grain number 4 Phase number : 2 Rotation angle : 13.0000000000000 degree Grain number 5 Phase number : 2 Rotation angle : 47.0000000000000 degree Grain number 6 Phase number : 3 Grain number 7 Phase number : 3 Grain number 8 Phase number : 3 Grain number 9 Phase number : 3 Grain number 10 Phase number : 3 Grain number 11 Phase number : 3 Grain number 12 Phase number : 3 Grain number 13 Phase number : 3 Grain number 14 Phase number : 3 Grain number 15 Phase number : 3 Grain number 16 Phase number : 3 Grain number 17 Phase number : 3 Grain number 18 Phase number : 3 Grain number 19 Phase number : 3 Grain number 20 Phase number : 3 Grain number 21 Phase number : 3 Grain number 22 Phase number : 3 Grain number 23 Phase number : 3 Grain number 24 Phase number : 3 Grain number 25 Phase number : 3 Grain number 26 Phase number : 3 Grain number 27 Phase number : 3 Grain number 28 Phase number : 3 Grain number 29 Phase number : 3 Grain number 30 Phase number : 3 Grain number 31 Phase number : 3 Grain number 32 Phase number : 3 Grain number 33 Phase number : 3 Grain number 34 Phase number : 3 Grain number 35 Phase number : 3 Grain number 36 Phase number : 3 Grain number 37 Phase number : 3 Grain number 38 Phase number : 3 Grain number 39 Phase number : 3 Grain number 40 Phase number : 3 Grain number 41 Phase number : 3 Grain number 42 Phase number : 3 Grain number 43 Phase number : 3 Grain number 44 Phase number : 3 Grain number 45 Phase number : 3 Grain number 46 Phase number : 3 Grain number 47 Phase number : 3 Grain number 48 Phase number : 3 Grain number 49 Phase number : 3 Grain number 50 Phase number : 3 Grain number 51 Phase number : 3 Grain number 52 Phase number : 3 Grain number 53 Phase number : 3 Grain number 54 Phase number : 3 Grain number 55 Phase number : 3 Grain number 56 Phase number : 3 Grain number 57 Phase number : 3 Grain number 58 Phase number : 3 Grain number 59 Phase number : 3 Grain number 60 Phase number : 3 Grain number 61 Phase number : 3 Grain number 62 Phase number : 3 Grain number 63 Phase number : 3 Grain number 64 Phase number : 3 Grain number 65 Phase number : 3 Grain number 66 Phase number : 3 Grain number 67 Phase number : 3 Grain number 68 Phase number : 3 Grain number 69 Phase number : 3 Grain number 70 Phase number : 3 Grain number 71 Phase number : 3 Grain number 72 Phase number : 3 Grain number 73 Phase number : 3 Grain number 74 Phase number : 3 Grain number 75 Phase number : 3 Grain number 76 Phase number : 3 Grain number 77 Phase number : 3 Grain number 78 Phase number : 3 Grain number 79 Phase number : 3 Grain number 80 Phase number : 3 Grain number 81 Phase number : 3 Grain number 82 Phase number : 3 Grain number 83 Phase number : 3 Grain number 84 Phase number : 3 Grain number 85 Phase number : 3 Grain number 86 Phase number : 3 Grain number 87 Phase number : 3 Grain number 88 Phase number : 3 Grain number 89 Phase number : 3 Initial Concentrations ********************** Concentrations will be set automatically, matrix phase: 2 component 1 (C) in phase 2 (BCC_A2) = 1.2000000000E-02 wt% component 2 (MN) in phase 2 (BCC_A2) = 0.7600000000 wt% initial equilibrium at T = 973.0000 K Process Conditions ****************** Temperature ----------- Initial temperature at the bottom: 1003.000 K Temperature gradient at beginning: 0.0000 K/cm Cooling rate: 1.0000 K/s 1D far field for solute diffusion ********************************* no_1d_far_field Moving frame ------------ Simulation domain not shifted Nucleation ********** Run-time nucleation enabled Number of types of seeds: 1 Input for seed type 1: ---------------------- Type of 'position' of the seeds: interfaces Phase of new grains: 1 Reference phase is phase 2 Minimal fraction of reference phase: 0.00000 Maximal fraction of reference phase: 1.00000 Substrate phase: 2 3 Nucleation driving force for seed type 1 will be undercooling. Seed type 1 will be described by the nucleation model seed_undercooling Maximum number of new nuclei of seed type 1: 10 Grain radius [micrometers]: 2.000000E-02 Choice of growth mode: analytical_curvature Critical Radius : 2.000000E-02 micrometers min. undercooling [K] (>0): 0.0000 Determination of grain orientations is 'parent_relation' Minimal value of rotation angle +10.00 Maximal value of rotation angle +10.00 Shield time [s]: 10.000 Shield phase or group number: 1 Shield distance [micrometers] [ nucleation distance [micrometers] ]: 2.0000 min. nucleation temperature for seed type 1: 873.0000 K max. nucleation temperature for seed type 1: 1273.0000 K Time between checks for nucleation: 2.00000E-02 [s] Random noise will be applied. Factor for random noise: 0.0100 Other nucleation parameters --------------------------- Seed for random-number generator initialisation: 777777777 Max. number of simultaneous nucleations: 10 Metastable small seeds will not be killed Number of intermediate outputs = 131 Intermediate output at t = 1.0000000E-02 s Intermediate output at t = 2.0000000E-02 s Intermediate output at t = 3.0000000E-02 s Intermediate output at t = 4.0000000E-02 s Intermediate output at t = 5.0000000E-02 s Intermediate output at t = 6.0000000E-02 s Intermediate output at t = 7.0000000E-02 s Intermediate output at t = 8.0000000E-02 s Intermediate output at t = 9.0000000E-02 s Intermediate output at t = 1.0000000E-01 s Intermediate output at t = 1.1000000E-01 s Intermediate output at t = 1.2000000E-01 s Intermediate output at t = 1.3000000E-01 s Intermediate output at t = 1.4000000E-01 s Intermediate output at t = 1.5000000E-01 s Intermediate output at t = 1.6000000E-01 s Intermediate output at t = 1.7000000E-01 s Intermediate output at t = 1.8000000E-01 s Intermediate output at t = 1.9000000E-01 s Intermediate output at t = 2.0000000E-01 s Intermediate output at t = 2.1000000E-01 s Intermediate output at t = 2.2000000E-01 s Intermediate output at t = 2.3000000E-01 s Intermediate output at t = 2.4000000E-01 s Intermediate output at t = 2.5000000E-01 s Intermediate output at t = 2.6000000E-01 s Intermediate output at t = 2.7000000E-01 s Intermediate output at t = 2.8000000E-01 s Intermediate output at t = 2.9000000E-01 s Intermediate output at t = 3.0000000E-01 s Intermediate output at t = 3.1000000E-01 s Intermediate output at t = 3.2000000E-01 s Intermediate output at t = 3.3000000E-01 s Intermediate output at t = 3.4000000E-01 s Intermediate output at t = 3.5000000E-01 s Intermediate output at t = 3.6000000E-01 s Intermediate output at t = 3.7000000E-01 s Intermediate output at t = 3.8000000E-01 s Intermediate output at t = 3.9000000E-01 s Intermediate output at t = 4.0000000E-01 s Intermediate output at t = 4.1000000E-01 s Intermediate output at t = 4.2000000E-01 s Intermediate output at t = 4.3000000E-01 s Intermediate output at t = 4.4000000E-01 s Intermediate output at t = 4.5000000E-01 s Intermediate output at t = 4.6000000E-01 s Intermediate output at t = 4.7000000E-01 s Intermediate output at t = 4.8000000E-01 s Intermediate output at t = 4.9000000E-01 s Intermediate output at t = 5.0000000E-01 s Intermediate output at t = 5.5000000E-01 s Intermediate output at t = 6.0000000E-01 s Intermediate output at t = 6.5000000E-01 s Intermediate output at t = 7.0000000E-01 s Intermediate output at t = 7.5000000E-01 s Intermediate output at t = 8.0000000E-01 s Intermediate output at t = 8.5000000E-01 s Intermediate output at t = 9.0000000E-01 s Intermediate output at t = 9.5000000E-01 s Intermediate output at t = 1.0000000E+00 s Intermediate output at t = 1.1000000E+00 s Intermediate output at t = 1.2000000E+00 s Intermediate output at t = 1.3000000E+00 s Intermediate output at t = 1.4000000E+00 s Intermediate output at t = 1.5000000E+00 s Intermediate output at t = 1.6000000E+00 s Intermediate output at t = 1.7000000E+00 s Intermediate output at t = 1.8000000E+00 s Intermediate output at t = 1.9000000E+00 s Intermediate output at t = 2.0000000E+00 s Intermediate output at t = 2.1000000E+00 s Intermediate output at t = 2.2000000E+00 s Intermediate output at t = 2.3000000E+00 s Intermediate output at t = 2.4000000E+00 s Intermediate output at t = 2.5000000E+00 s Intermediate output at t = 2.6000000E+00 s Intermediate output at t = 2.7000000E+00 s Intermediate output at t = 2.8000000E+00 s Intermediate output at t = 2.9000000E+00 s Intermediate output at t = 3.0000000E+00 s Intermediate output at t = 3.1000000E+00 s Intermediate output at t = 3.2000000E+00 s Intermediate output at t = 3.3000000E+00 s Intermediate output at t = 3.4000000E+00 s Intermediate output at t = 3.5000000E+00 s Intermediate output at t = 3.6000000E+00 s Intermediate output at t = 3.7000000E+00 s Intermediate output at t = 3.8000000E+00 s Intermediate output at t = 3.9000000E+00 s Intermediate output at t = 4.0000000E+00 s Intermediate output at t = 4.1000000E+00 s Intermediate output at t = 4.2000000E+00 s Intermediate output at t = 4.3000000E+00 s Intermediate output at t = 4.4000000E+00 s Intermediate output at t = 4.5000000E+00 s Intermediate output at t = 4.6000000E+00 s Intermediate output at t = 4.7000000E+00 s Intermediate output at t = 4.8000000E+00 s Intermediate output at t = 4.9000000E+00 s Intermediate output at t = 5.0000000E+00 s Intermediate output at t = 5.5000000E+00 s Intermediate output at t = 6.0000000E+00 s Intermediate output at t = 6.5000000E+00 s Intermediate output at t = 7.0000000E+00 s Intermediate output at t = 7.5000000E+00 s Intermediate output at t = 8.0000000E+00 s Intermediate output at t = 8.5000000E+00 s Intermediate output at t = 9.0000000E+00 s Intermediate output at t = 9.5000000E+00 s Intermediate output at t = 1.0000000E+01 s Intermediate output at t = 1.1000000E+01 s Intermediate output at t = 1.2000000E+01 s Intermediate output at t = 1.3000000E+01 s Intermediate output at t = 1.4000000E+01 s Intermediate output at t = 1.5000000E+01 s Intermediate output at t = 1.6000000E+01 s Intermediate output at t = 1.7000000E+01 s Intermediate output at t = 1.8000000E+01 s Intermediate output at t = 1.9000000E+01 s Intermediate output at t = 2.0000000E+01 s Intermediate output at t = 2.5000000E+01 s Intermediate output at t = 3.0000000E+01 s Intermediate output at t = 3.5000000E+01 s Intermediate output at t = 4.0000000E+01 s Intermediate output at t = 4.5000000E+01 s Intermediate output at t = 5.0000000E+01 s Intermediate output at t = 6.0000000E+01 s Intermediate output at t = 7.0000000E+01 s Intermediate output at t = 8.0000000E+01 s Intermediate output at t = 9.0000000E+01 s Intermediate output at t = 1.0000000E+02 s Numerical parameters ******************** Phase field solver ------------------ Coefficient for phase-field criterion 1.00 Coefficient for segregation criterion 0.900 Upper limit for time step: 1.000E-02 Lower limit for time step: 2.000E-07 Time between checks for nucleation: 2.00000E-02 [s] Number of steps to adjust profiles of initially sharp interfaces [exclude_inactive]: 25 'Multi-obstacle' potential Phase minimum phMin = 1.00E-06 Interface thickness etaZ = 3.00000000000000 IFaceDim coeff. : 0.100 (0.75, 0.50) nTupelDim coeff.: 0.100 (0.75, 0.50) Concentration solver -------------------- Factor for diffusion time stepping = Concentration solver In phase CEMENTITE component C is really stoichiometric. Number of parallel threads: 8 Beginning of initialisation *************************** # Grain number 1 set # Grain number 2 set # Grain number 3 set # Grain number 4 set # Grain number 5 set # Grain number 6 set # Grain number 7 set # Grain number 8 set # Grain number 9 set # Grain number 10 set # Grain number 11 set # Grain number 12 set # Grain number 13 set # Grain number 14 set # Grain number 15 set # Grain number 16 set # Grain number 17 set # Grain number 18 set # Grain number 19 set # Grain number 20 set # Grain number 21 set # Grain number 22 set # Grain number 23 set # Grain number 24 set # Grain number 25 set # Grain number 26 set # Grain number 27 set # Grain number 28 set # Grain number 29 set # Grain number 30 set # Grain number 31 set # Grain number 32 set # Grain number 33 set # Grain number 34 set # Grain number 35 set # Grain number 36 set # Grain number 37 set # Grain number 38 set # Grain number 39 set # Grain number 40 set # Grain number 41 set # Grain number 42 set # Grain number 43 set # Grain number 44 set # Grain number 45 set # Grain number 46 set # Grain number 47 set # Grain number 48 set # Grain number 49 set # Grain number 50 set # Grain number 51 set # Grain number 52 set # Grain number 53 set # Grain number 54 set # Grain number 55 set # Grain number 56 set # Grain number 57 set # Grain number 58 set # Grain number 59 set # Grain number 60 set # Grain number 61 set # Grain number 62 set # Grain number 63 set # Grain number 64 set # Grain number 65 set # Grain number 66 set # Grain number 67 set # Grain number 68 set # Grain number 69 set # Grain number 70 set # Grain number 71 set # Grain number 72 set # Grain number 73 set # Grain number 74 set # Grain number 75 set # Grain number 76 set # Grain number 77 set # Grain number 78 set # Grain number 79 set # Grain number 80 set # Grain number 81 set # Grain number 82 set # Grain number 83 set # Grain number 84 set # Grain number 85 set # Grain number 86 set # Grain number 87 set # Grain number 88 set # Grain number 89 set Start Composition and Limits for quasi-equilibrium -------------------------------------------------- FE in FCC_A1: 98.0055 at% (>0 - <100at% ) C in FCC_A1: 0.931211 at% (>0 - 50.0000at% ) MN in FCC_A1: 1.06328 at% (>0 - <100at% ) FE in BCC_A2: 96.1336 at% (>0 - <100at% ) C in BCC_A2: 2.88569 at% (>0 - 75.0000at% ) MN in BCC_A2: 0.980661 at% (>0 - <100at% ) FE in CEMENTITE: 74.2147 at% (>0 - 75.0000at% ) C in CEMENTITE: 25.0000 at% ( 25.0000 - 25.0000at% ) MN in CEMENTITE: 0.785340 at% (>0 - 75.0000at% ) The linearisation parameters of the phases BCC_A2/CEMENTITE are: -------------------------------------------------------------- 973.00000 ! T0 [K] -10.137948 ! dG [J/cm**3] 3.4402417 ! dSf+ [J/cm**3K] 3.8205915 ! dSf- [J/cm**3K] -22.655594 ! dH [J/cm3] 1.19999999875846E-02 ! c0(C)/BCC_A2 6.6991140430335 ! c0(C)/CEMENTITE 0.75999374378927 ! c0(MN)/BCC_A2 8.7520632565143 ! c0(MN)/CEMENTITE 6734.5013 ! m(C)/BCC_A2 -999.99000 ! m(C)/CEMENTITE 21.040189 ! m(MN)/BCC_A2 2.5045389 ! m(MN)/CEMENTITE 0.0000000 ! dcdT(C)/BCC_A2 0.0000000 ! dcdT(C)/CEMENTITE 5.99012283E-03 ! dcdT(MN)/BCC_A2 -5.75787798E-02 ! dcdT(MN)/CEMENTITE Reduced interaction matrix dc(k,ph1)/dc(l,ph2)*c(l,ph2)/c(k,ph1): C MN C 0.00 0.00 MN 0.00 1.20 Reduced interaction matrix dc(k,ph2)/dc(l,ph1)*c(l,ph1)/c(k,ph2): C MN C 0.00 0.00 MN 0.00 0.835 Slopes of C in phase CEMENTITE cannot be calculated! Initial concentration in the phases: ------------------------------------ Initial concentration in the phases: FCC_A1, FE: 100.0000 wt% FCC_A1, C: ************* wt% FCC_A1, MN: ************* wt% BCC_A2, FE: 99.22800 wt% BCC_A2, C: 1.2000000E-02 wt% BCC_A2, MN: 0.7600000 wt% CEMENTITE, FE: 84.54882 wt% CEMENTITE, C: 6.699114 wt% CEMENTITE, MN: 8.752063 wt% tWidth_max( FCC_A1: FCC_A1) = 1.5625000E-02 s tWidth_max( BCC_A2: BCC_A2) = 1.6493056E-02 s tWidth_max( BCC_A2: CEMENTITE) = 1.1875000E-02 s Maximal value for tWidth = 1.0000000E-04 s for phase-field solver Updating of diffusion data from database... Maximal value for tWidth = 6.9344304E-08 s for conc-field solver Automatic time stepping (phase-field solver): decreased value for tWidth = 6.58771E-08 s Initial value for tWidth = 6.58771E-08 s for automatic time stepping (phase-field solver) Critical grain radius: of phase CEMENTITE in phase BCC_A2 = 2.90677E-02 / dT_unt [micrometers] Remaining license time: permanent ================================================== Time t = 0.0000000 s CPU-time: 3 s Current phase-field solver time step = 6.59E-08 s Average conc. of comp. C = 0.6196235 wt% Average conc. of comp. MN = 1.4861975 wt% Temperature at the bottom = 1003.0 K Temperature gradient = 0.00000 K/cm Fraction of phase LIQUID: 0.00000 Fraction of phase FCC_A1: 0.00000 Fraction of phase BCC_A2: 0.88932 Fraction of phase CEMENTITE: 0.11068 ********************************************** * Beginning of simulation * ********************************************** Updating of diffusion data from database... Fast moving interface(s) relinearized BCC_A2/CEMENTITE (15) Intermediate output for t = 1.00000E-02 s CPU-time: 5815 s Current phase-field solver time step = 3.83E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.0 K Temperature gradient = 0.00000 K/cm The linearisation parameters of the phases BCC_A2/FCC_A1 are: ----------------------------------------------------------- 1003.0200 ! T0 [K] -19.108593 ! dG [J/cm**3] -1.89939316E-02 ! dSf+ [J/cm**3K] -0.46157304 ! dSf- [J/cm**3K] -567.74585 ! dH [J/cm3] 1.58620347605771E-02 ! c0(C)/BCC_A2 0.70239050645944 ! c0(C)/FCC_A1 0.98140953713405 ! c0(MN)/BCC_A2 3.2636568655574 ! c0(MN)/FCC_A1 -116851.83 ! m(C)/BCC_A2 -143.18413 ! m(C)/FCC_A1 -1186.4783 ! m(MN)/BCC_A2 -15.038552 ! m(MN)/FCC_A1 1.26663206E-04 ! dcdT(C)/BCC_A2 -4.53229327E-03 ! dcdT(C)/FCC_A1 6.27724377E-03 ! dcdT(MN)/BCC_A2 -2.10927972E-02 ! dcdT(MN)/FCC_A1 Reduced interaction matrix dc(k,ph1)/dc(l,ph2)*c(l,ph2)/c(k,ph1): C MN C 1.37 -7.500E-02 MN -0.140 1.13 Reduced interaction matrix dc(k,ph2)/dc(l,ph1)*c(l,ph1)/c(k,ph2): C MN C 0.734 4.870E-02 MN 9.114E-02 0.891 Minimum undercooling for stable growth, seed type 1: 263.2420 K [r=2.0000000E-02 mic.] Nucleation at t = 2.00000E-02 Seed type 1 : was checked 'Checked' points : 00001996 Points found : 00001996 Symmetric boundaries : 00001996 Symmetric nucleation (1/2) : 00001996 Shield from previous nuclei: 00001996 Shield from new nuclei : 00000002 Check versus maxAnzKeim : 00000002 Check versus maxAnzKeimZS : 00000002 Symmetric nucleation (2/2) : 00000002 New nuclei : 00000002 Seed number 1 set at time t = 0.20000E-01 s ------------------------------------------- at an interface Phase: 1 (FCC_A1) Seed type: 1 Local temperature = 1003.0 K Undercooling = 1042.8 K Grain number = 90 Seed number 2 set at time t = 0.20000E-01 s ------------------------------------------- at an interface Phase: 1 (FCC_A1) Seed type: 1 Local temperature = 1003.0 K Undercooling = 1137.2 K Grain number = 91 Updating of diffusion data from database... Fast moving interface(s) relinearized BCC_A2/CEMENTITE (10) Intermediate output for t = 2.00000E-02 s CPU-time: 5916 s Current phase-field solver time step = 4.38E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.0 K Temperature gradient = 0.00000 K/cm The linearisation parameters of the phases FCC_A1/CEMENTITE are: -------------------------------------------------------------- 1003.0200 ! T0 [K] 16.163464 ! dG [J/cm**3] 1.2000104 ! dSf+ [J/cm**3K] 1.4311053 ! dSf- [J/cm**3K] 665.07511 ! dH [J/cm3] 0.70238738420886 ! c0(C)/FCC_A1 6.6991501996251 ! c0(C)/CEMENTITE 3.2367766627672 ! c0(MN)/FCC_A1 8.7847301266328 ! c0(MN)/CEMENTITE 409.06718 ! m(C)/FCC_A1 -999.99000 ! m(C)/CEMENTITE 3.5413543 ! m(MN)/FCC_A1 1.4368790 ! m(MN)/CEMENTITE -3.06280247E-12 ! dcdT(C)/FCC_A1 0.0000000 ! dcdT(C)/CEMENTITE 5.25019735E-03 ! dcdT(MN)/FCC_A1 -1.31848619E-02 ! dcdT(MN)/CEMENTITE Reduced interaction matrix dc(k,ph1)/dc(l,ph2)*c(l,ph2)/c(k,ph1): C MN C 0.00 0.00 MN 0.00 1.08 Reduced interaction matrix dc(k,ph2)/dc(l,ph1)*c(l,ph1)/c(k,ph2): C MN C 0.00 0.00 MN 0.00 0.925 Slopes of C in phase CEMENTITE cannot be calculated! Fast moving interface(s) relinearized BCC_A2/CEMENTITE (1) Intermediate output for t = 2.00002E-02 s CPU-time: 2 s Current phase-field solver time step = 2.00E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.0 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (2234) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (146) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (2368) Intermediate output for t = 3.00000E-02 s CPU-time: 10690 s Current phase-field solver time step = 2.00E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.0 K Temperature gradient = 0.00000 K/cm Nucleation at t = 4.00000E-02 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (1923) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (2081) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (2371) Intermediate output for t = 4.00000E-02 s CPU-time: 10112 s Current phase-field solver time step = 4.77E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.0 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (644) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (876) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (651) Intermediate output for t = 5.00000E-02 s CPU-time: 7265 s Current phase-field solver time step = 4.77E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.0 K Temperature gradient = 0.00000 K/cm Nucleation at t = 6.00000E-02 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (286) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (449) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (251) Intermediate output for t = 6.00000E-02 s CPU-time: 7596 s Current phase-field solver time step = 2.97E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (250) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (377) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (242) Intermediate output for t = 7.00000E-02 s CPU-time: 6434 s Current phase-field solver time step = 4.85E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Nucleation at t = 8.00000E-02 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (36) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (96) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (73) Intermediate output for t = 8.00000E-02 s CPU-time: 6411 s Current phase-field solver time step = 4.82E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (46) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (100) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (83) Intermediate output for t = 9.00000E-02 s CPU-time: 5687 s Current phase-field solver time step = 4.80E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/CEMENTITE (12) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (12) Intermediate output for t = 0.10000 s CPU-time: 6014 s Current phase-field solver time step = 4.78E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.10000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (8) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (102) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (34) Intermediate output for t = 0.11000 s CPU-time: 6359 s Current phase-field solver time step = 4.76E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/CEMENTITE (27) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (27) Intermediate output for t = 0.12000 s CPU-time: 6198 s Current phase-field solver time step = 4.72E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.12000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/CEMENTITE (18) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (18) Intermediate output for t = 0.13000 s CPU-time: 6398 s Current phase-field solver time step = 4.71E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (148) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (220) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (124) Intermediate output for t = 0.14000 s CPU-time: 6413 s Current phase-field solver time step = 4.68E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.14000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (262) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (448) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (330) Intermediate output for t = 0.15000 s CPU-time: 6288 s Current phase-field solver time step = 4.65E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.1 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.16000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (118) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (446) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (347) Intermediate output for t = 0.16000 s CPU-time: 6375 s Current phase-field solver time step = 4.62E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (284) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (458) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (353) Intermediate output for t = 0.17000 s CPU-time: 6239 s Current phase-field solver time step = 4.59E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.18000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (110) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (331) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (300) Intermediate output for t = 0.18000 s CPU-time: 6268 s Current phase-field solver time step = 4.56E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (186) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (304) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (274) Intermediate output for t = 0.19000 s CPU-time: 6248 s Current phase-field solver time step = 4.54E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.20000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (178) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (386) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (352) Intermediate output for t = 0.20000 s CPU-time: 6487 s Current phase-field solver time step = 4.58E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (8) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (54) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (33) Intermediate output for t = 0.21000 s CPU-time: 6489 s Current phase-field solver time step = 4.62E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.22000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (50) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (258) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (251) Intermediate output for t = 0.22000 s CPU-time: 6503 s Current phase-field solver time step = 4.61E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (60) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (176) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (158) Intermediate output for t = 0.23000 s CPU-time: 6479 s Current phase-field solver time step = 4.75E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.24000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Intermediate output for t = 0.24000 s CPU-time: 6142 s Current phase-field solver time step = 4.83E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Intermediate output for t = 0.25000 s CPU-time: 6071 s Current phase-field solver time step = 4.85E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.2 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.26000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Intermediate output for t = 0.26000 s CPU-time: 6115 s Current phase-field solver time step = 4.95E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.3 K Temperature gradient = 0.00000 K/cm Intermediate output for t = 0.27000 s CPU-time: 6153 s Current phase-field solver time step = 4.97E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.3 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.28000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (59) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (105) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (95) Intermediate output for t = 0.28000 s CPU-time: 6136 s Current phase-field solver time step = 5.02E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.3 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (13) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (25) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (14) Intermediate output for t = 0.29000 s CPU-time: 6153 s Current phase-field solver time step = 5.16E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.3 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.30000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (166) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (622) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (580) Intermediate output for t = 0.30000 s CPU-time: 6042 s Current phase-field solver time step = 5.08E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.3 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (65) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (231) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (210) Intermediate output for t = 0.31000 s CPU-time: 5867 s Current phase-field solver time step = 3.52E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.3 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.32000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (47) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (165) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (146) Intermediate output for t = 0.32000 s CPU-time: 5846 s Current phase-field solver time step = 5.38E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.3 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (12) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (165) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (164) Intermediate output for t = 0.33000 s CPU-time: 5753 s Current phase-field solver time step = 5.42E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.3 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.34000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (118) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (541) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (478) Intermediate output for t = 0.34000 s CPU-time: 6052 s Current phase-field solver time step = 5.45E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.3 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (4) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (87) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (84) Intermediate output for t = 0.35000 s CPU-time: 5766 s Current phase-field solver time step = 5.45E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.36000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/CEMENTITE (14) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (15) Intermediate output for t = 0.36000 s CPU-time: 5774 s Current phase-field solver time step = 5.49E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/CEMENTITE (11) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (11) Intermediate output for t = 0.37000 s CPU-time: 5694 s Current phase-field solver time step = 5.52E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.38000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (20) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (47) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (40) Intermediate output for t = 0.38000 s CPU-time: 5760 s Current phase-field solver time step = 5.60E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (38) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (100) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (100) Intermediate output for t = 0.39000 s CPU-time: 5792 s Current phase-field solver time step = 5.62E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.40000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Intermediate output for t = 0.40000 s CPU-time: 5669 s Current phase-field solver time step = 5.62E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (58) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (257) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (233) Intermediate output for t = 0.41000 s CPU-time: 6560 s Current phase-field solver time step = 5.68E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.42000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (30) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (168) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (158) Intermediate output for t = 0.42000 s CPU-time: 7222 s Current phase-field solver time step = 5.68E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (3) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (122) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (119) Intermediate output for t = 0.43000 s CPU-time: 6021 s Current phase-field solver time step = 5.70E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.44000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (53) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (254) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (217) Intermediate output for t = 0.44000 s CPU-time: 6074 s Current phase-field solver time step = 5.64E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.4 K Temperature gradient = 0.00000 K/cm Fast moving interface(s) relinearized FCC_A1/BCC_A2 (22) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (230) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (358) Intermediate output for t = 0.45000 s CPU-time: 6623 s Current phase-field solver time step = 3.60E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.5 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.46000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Fast moving interface(s) relinearized FCC_A1/BCC_A2 (1) Fast moving interface(s) relinearized FCC_A1/CEMENTITE (94) Fast moving interface(s) relinearized BCC_A2/CEMENTITE (94) Intermediate output for t = 0.46000 s CPU-time: 6082 s Current phase-field solver time step = 4.53E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.5 K Temperature gradient = 0.00000 K/cm Intermediate output for t = 0.47000 s CPU-time: 6040 s Current phase-field solver time step = 4.40E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.5 K Temperature gradient = 0.00000 K/cm Nucleation at t = 0.48000 Seed type 1 : was checked 'Checked' points : 00000000 Points found : 00000000 Intermediate output for t = 0.48000 s CPU-time: 5877 s Current phase-field solver time step = 5.73E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.5 K Temperature gradient = 0.00000 K/cm Intermediate output for t = 0.49000 s CPU-time: 5834 s Current phase-field solver time step = 5.83E-07 s Average conc. of comp. C = 0.6196235, Variation = -0.0000000 wt% Average conc. of comp. MN = 1.4861975, Variation = +0.0000000 wt% Temperature at the bottom = 1003.5 K Temperature gradient = 0.00000 K/cm