Download User Guide Version 6.1 - RWTH Aachen University
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User Guide Version 6.1 Volume IV: Examples “Resolution of partial differential equations is more about art than science”. “2 + 2 = 4 except for large values of 2” “42” Chapter 1 Introduction MICRESS® User Guide Volume IV: MICRESS® Examples 1/68 Chapter 1 Introduction MICRESS® User Guide Volume IV: MICRESS® Examples 2/68 Chapter 2 What's new? MICRESS® User Guide Volume IV: MICRESS® Examples 3/68 Chapter 3 Examples Overview MICRESS® User Guide Volume IV: MICRESS® Examples 4/68 dimension concentration coupling 1D 2D GammaAlpha_NPLE_dri 04 X X 3D MICRESS® User Guide Volume IV: MICRESS® Examples X stress field X X X X X X only phase field X X X X X X X X X X 13 14 15 grain growth grain growth grain growth X X recrystallisation X X recrystallisation X recrystallisation temperature coupling recrystallisation X recrystallisation X recrystallisation (stress) X ripeneing 12 Al-Ag X X X X X X X X X X X Antitroppoy AlSi_antitrap_dri Grain_Growth_triple_dri 23 24 25 26 ReX_5_dri ReX_4_dri ReX_3_dri ReX_2_dri ReX_1_dri Stress_dri TQ_Ripening_dri 22 21 20 19 18 17 16 Grain_Growth_Profiles_dri Grain_Growth_Solute_Drag_dG_dri Grain_Growth_Solute_Drag_dri Grain_Growth_Particle_Pinning_dri GammaAlphaCementite_TQ_dri GammaAlpha_NPLE_dri GammaAlpha_Stress_dri GammaAlpha_TQ_dri grain growth 09 08 07 06 Grain_Growth_dri Fe-C-Mn Fe-C-Mn Fe-C-Mn Fe-C-Mn Fe-C-Mn 11 GammaAlpha_dri GammaAlpha_PARA_dri 03 05 GammaAlpha_PARATQ_dri 02 GammaAlphaCementite_LinTQ_dri alloy 10 Fe-C-Mn GammaAlpha_Pearlite_dri Example solid state transformation solid state transformation solid state transformation solid state transformation solid state transformation solid state transformation grain growth transformation 01 Chapter 3 Examples Overview X X X 5/68 time step Chapter 3 Examples Overview automatic X X X X X equiaxed X X X X X deterministic random from file voronoi stochiometric phases types of seeds X X X X X X X X X X X X X X X X X X X X X X X X X X manual anisotropy thermodynamic databases model nucleation model microstructure initial directional X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X seed density seed undercooling restart option thermodynamic coupling & diffusion data cubic X X X X X X X X X X X X X hexagona MICRESS® User Guide Volume IV: MICRESS® Examples 6/68 Chapter 3 Examples Overview faceted antifaceted Iiterface mobility models far field far field approximation approximation misorientation X X X X 1d far field 1d field for temperature coupling moving frame latent heat X solute drag particle pinning mobility X X X X X read in data files enthalpy heat capacity heat conductivity interfacial energy temperature trend MICRESS® User Guide Volume IV: MICRESS® Examples X 7/68 dimension 1D 2D X solidification X solidification segregation X segregation solidification 04 03 02 01 X MICRESS® User Guide Volume IV: MICRESS® Examples Al-Ag X X X X X X X temperature coupling X AlCu_LinTQ_dri AlSi_antitrap_dri Antitroppoy_dri 09 10 11 transformation X only phase field stress field recrystallisation X X 3D 8/68 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 Temperature_dri TQ_Eutectic_dri P_Peak_2D_dri P_Peak_1D_dri AlCu_Temp1d_dri AlCu_Equiaxed_dri AlCu_dri Delta_Gamma_dri 08 07 Fe-C-Mn- P-Si 06 Fe-C-Mn-P-Si 05 Al-Cu Al-Cu Al-Cu Fe-C-Mn alloy (temperature) solidification concentration coupling solidification Chapter 3 Examples Overview Example time step Chapter 3 Examples Overview automatic initial microstructure nucleation model X X X X X manual directional anisotropy thermodynamic databases model X X X equiaxed deterministic random from file voronoi stochiometric phases types of seeds X X X X X X X X X X X X X X X X X X X X seed density X X X X X X X seed undercooling restart option X X X X X X X X X thermodynamic coupling X X X X X X X X X X X X X X & diffusion data cubic X X X X hexagona MICRESS® User Guide Volume IV: MICRESS® Examples 9/68 Chapter 3 Examples Overview faceted antifaceted Iiterface mobility models far field far field approximation approximation misorientation 1d far field X X 1d field for temperature coupling moving frame X X latent heat X X solute drag particle pinning mobility read in data files enthalpy heat capacity heat conductivity interfacial energy temperature trend MICRESS® User Guide Volume IV: MICRESS® Examples 10/68 Chapter 4 “Delta-Gamma” Delta_Gamma_dri δ γ- name dri file Delta_Gamma.dri alloy system composition transition MICRESS® User Guide Volume IV: MICRESS® Examples 11/68 Chapter 4 “Delta-Gamma” name dri file Delta_Gamma.dri dimension grid size grid spacing interface thickness boundary conditions solid phases: Two solid phases: δ γ δ grain input γ Δ output special features MICRESS® User Guide Volume IV: MICRESS® Examples 12/68 Chapter 4 “Delta-Gamma” δ MICRESS® User Guide Volume IV: MICRESS® Examples γ 13/68 Chapter 4 “Delta-Gamma” MICRESS® User Guide Volume IV: MICRESS® Examples 14/68 Chapter 5 “Aluminium-Copper” AlCu_dri.txt name dri file AlCu_Equiaxed_dri.txt AlCu_Temp1d_dri.txt alloy system composition transition MICRESS® User Guide Volume IV: MICRESS® Examples 15/68 Chapter 5 “Aluminium-Copper” name dri file AlCu_dri.txt AlCu_Equiaxed_dri.txt AlCu_Temp1d_dri.txt dimension grid size grid spacing interface thickness boundary conditions BCs phase field BCs concentration field BCs solid phases: grain input output special features MICRESS® User Guide Volume IV: MICRESS® Examples 16/68 Chapter 5 “Aluminium-Copper” MICRESS® User Guide Volume IV: MICRESS® Examples 17/68 Chapter 5 “Aluminium-Copper” → → → t=0s t=0.1s t=0.5s t=1.0s t=1.5s t=2.0s MICRESS® User Guide Volume IV: MICRESS® Examples 18/68 Chapter 5 “Aluminium-Copper” → → phas → → → → → MICRESS® User Guide Volume IV: MICRESS® Examples 19/68 Chapter 5 “Aluminium-Copper” t=0s t=9.0000004Ex10^-2s t=0.1s t=0.3s t=0.4s MICRESS® User Guide Volume IV: MICRESS® Examples 20/68 Chapter 5 “Aluminium-Copper” MICRESS® User Guide Volume IV: MICRESS® Examples 21/68 Chapter 6 “Gamma-Alpha” Gamma_Alpha_dri Gamma_Alpha_TQ_dri Gamma_Alpha_Stress_dri γ→α Gamma_Alpha_TQ_dri “GammaAlphaCementite_LinTQ_dri“, Gamma_Alpha_TQ_dri “GammaAlphaCementiteTQ_dri“, Gamma_Alpha_NPLE_dri γ→ α GammaAlpha_Para.dri GammaAlpha_Pearlite.dri GammaAlpha_ParaTQ.dri name dri file Gamma_Alpha_dri.txt Gamma_Alpha_TQ_dri.txt Gamma_Alpha_Cementite_LinTQ_dri.txt Gamma_Alpha_CementiteTQ_dri.txt Gamma_Alpha_NPLE_dri.txt Gamma_Alpha_Stress_dri alloy system composition transition MICRESS® User Guide Volume IV: MICRESS® Examples 22/68 Gamma_Alpha_Stress_dri Gamma_Alpha_NPLE_dri.txt Gamma_Alpha_CementiteTQ_dri.txt Gamma_Alpha_Cementite_LinTQ_dri.txt Gamma_Alpha_TQ_dri.txt Gamma_Alpha_dri.txt name dri file Chapter 6 “Gamma-Alpha” dimension grid size (cells) grid spacing interface thickness (cells) boundary conditions BCs phase field BCs concentration field BCs solid phases: γ α γ α, γ α γ α, grain input MICRESS® User Guide Volume IV: MICRESS® Examples 23/68 Chapter 6 “Gamma-Alpha” output special features MICRESS® User Guide Volume IV: MICRESS® Examples 24/68 Chapter 6 “Gamma-Alpha” Gamma_Alpha_in.txt and Gamma_Alpha_TQ_in.txt MICRESS® User Guide Volume IV: MICRESS® Examples 25/68 Chapter 6 “Gamma-Alpha” MICRESS® User Guide Volume IV: MICRESS® Examples 26/68 Chapter 6 “Gamma-Alpha” → → phas → → MICRESS® User Guide Volume IV: MICRESS® Examples → 27/68 Chapter 6 “Gamma-Alpha” Figure 6.4. Concentration: “Gamma-Alpha_Cementite” with linearized (LinTQ) and nonlinearised (TQ) concentration-coupling (time step 35 sec in both cases) MICRESS® User Guide Volume IV: MICRESS® Examples 28/68 Chapter 6 “Gamma-Alpha” → MICRESS® User Guide Volume IV: MICRESS® Examples → → → 29/68 Chapter 6 “Gamma-Alpha” MICRESS® User Guide Volume IV: MICRESS® Examples 30/68 Chapter 6 “Gamma-Alpha” → → → → → MICRESS® User Guide Volume IV: MICRESS® Examples 31/68 Chapter 6 “Gamma-Alpha” MICRESS® User Guide Volume IV: MICRESS® Examples 32/68 Chapter 7 “Grain-Growth” Grain_Growth_dri Grain_Growth_Particle_Pinning_dri Grain_Growth_Solute_Drag_dri Grain_Growth_dri Grain_Growth_Profiles_dri Grain_Growth_Solute_Drag_dG_in.txt Grain_Growth_Solute_Drag_in.txt name dri file Grain_Growth_in.txt Grain_Growth_Particle_Pinning_in.txt Grain_Growth_Profiles_in.txt Grain_Growth_Solute_Drag_dG_in.txt Grain_Growth_Solute_Drag_in.txt alloy system composition modelled phenomenon MICRESS® User Guide Volume IV: MICRESS® Examples 33/68 Grain_Growth_Profiles_in.txt Grain_Growth_Solute_Drag_dG_in.txt Grain_Growth_Solute_Drag_in.txt Grain_Growth_Particle_Pinning_in.txt Grain_Growth_in.txt name dri file Chapter 7 “Grain-Growth” dimension grid size (cells) grid spacing interface thickness (cells) boundary conditions BCs phase field BCs solid phases: Grain_Growth_Microstructure.txt grain input MICRESS® User Guide Volume IV: MICRESS® Examples 34/68 Chapter 7 “Grain-Growth” output Grain_Growth_Microstructure.txt special features MICRESS® User Guide Volume IV: MICRESS® Examples driving force temperature dependent mobility dependent mobility -> temperature trend read in from file 35/68 Chapter 7 “Grain-Growth” korn t=0s t=0s t=0s t=500s t=500s t=500s t=1000s t=1000s t=1000s MICRESS® User Guide Volume IV: MICRESS® Examples 36/68 Chapter 7 “Grain-Growth” MICRESS® User Guide Volume IV: MICRESS® Examples 37/68 Chapter 7 “Grain-Growth” Grain_Growth_Profiles_korn.txt MICRESS® User Guide Volume IV: MICRESS® Examples 38/68 Chapter 7 “Grain-Growth” Grain_Growth_Profiles_temp.txt MICRESS® User Guide Volume IV: MICRESS® Examples 39/68 Chapter 9 “Recrystallisation” P_Peak_1D_dri name dri file P_Peak_2D_dri P_Peak_1D_in.txt P_Peak_2D_in.txt alloy system composition transition MICRESS® User Guide Volume IV: MICRESS® Examples 40/68 Chapter 9 “Recrystallisation” name dri file P_Peak_1D_in.txt P_Peak_2D_in.txt dimension grid size (cells) grid spacing interface thickness (cells) boundary conditions BCs phase field BCs concentration field BCs solid phases: grain input temperature MICRESS® User Guide Volume IV: MICRESS® Examples 41/68 Chapter 9 “Recrystallisation” output special features MICRESS® User Guide Volume IV: MICRESS® Examples 42/68 Chapter 9 “Recrystallisation” MICRESS® User Guide Volume IV: MICRESS® Examples 43/68 Chapter 9 “Recrystallisation” phas → → → → MICRESS® User Guide Volume IV: MICRESS® Examples 44/68 Chapter 9 “Recrystallisation” MICRESS® User Guide Volume IV: MICRESS® Examples 45/68 Chapter 9 “Recrystallisation” ReX_1_dri ReX_2_dri ReX_3_dri ReX_4_dri ReX_5_dri ReX_1_dri name dri file ReX_5_dri ReX_1_in.txt ReX_2_in.txt ReX_3_in.txt ReX_4_in.txt ReX_5_in.txt alloy system composition phenomenon MICRESS® User Guide Volume IV: MICRESS® Examples 46/68 ReX_5_in.txt ReX_4_in.txt ReX_3_in.txt ReX_2_in.txt ReX_1_in.txt name dri file Chapter 9 “Recrystallisation” dimension grid size (cells) grid spacing interface thickness (cells) boundary conditions BCs phase field BCs solid phases: different stored energy assigned to different grains grain input MICRESS® User Guide Volume IV: MICRESS® Examples 47/68 Chapter 9 “Recrystallisation” output special features MICRESS® User Guide Volume IV: MICRESS® Examples 48/68 Chapter 9 “Recrystallisation” phas → rex → → MICRESS® User Guide Volume IV: MICRESS® Examples → → → → 49/68 Chapter 9 “Recrystallisation” rex → → → MICRESS® User Guide Volume IV: MICRESS® Examples → 50/68 Chapter 9 “Recrystallisation” MICRESS® User Guide Volume IV: MICRESS® Examples 51/68 Chapter 9 “Recrystallisation” MICRESS® User Guide Volume IV: MICRESS® Examples 52/68 Chapter 10 “Stress” name dri file Stress_in.txt alloy system composition transition MICRESS® User Guide Volume IV: MICRESS® Examples 53/68 Chapter 10 “Stress” name dri file Stress_in.txt dimension grid size grid spacing interface thickness boundary conditions BCs phase field BCs concentration field BCs solid phases: 2 solid phases: austenite (initial/matrix) and ferrite (growing) grain input output special features MICRESS® User Guide Volume IV: MICRESS® Examples 54/68 Chapter 10 “Stress” vM MICRESS® User Guide Volume IV: MICRESS® Examples 55/68 Chapter 11 “Basic TQ-Coupling” TQ_Ripening_dri name dri file TQ_Eutectic_dri TQ_Ripening_in.txt TQ_Eutectic_in.txt alloy system composition transition MICRESS® User Guide Volume IV: MICRESS® Examples 56/68 Chapter 11 “Basic TQ-Coupling” name dri file TQ_Ripening_in.txt TQ_Eutectic_in.txt dimension grid size (cells) grid spacing interface thickness (cells) boundary conditions BCs phase field BCs concentration field BCs solid phases: grain input output special features MICRESS® User Guide Volume IV: MICRESS® Examples 57/68 Chapter 11 “Basic TQ-Coupling” MICRESS® User Guide Volume IV: MICRESS® Examples 58/68 Chapter 11 “Basic TQ-Coupling” MICRESS® User Guide Volume IV: MICRESS® Examples 59/68 Chapter 12 “Temperature” Temperature_dri name dri file Temperature_in.txt alloy system composition phenomenon MICRESS® User Guide Volume IV: MICRESS® Examples 60/68 Chapter 12 “Temperature” name dri file Temperature_in.txt dimension grid size grid spacing interface thickness boundary conditions BCs phase field BCs temperature field BCs solid phases: one solid phase ( a pure substance) grain input output special features MICRESS® User Guide Volume IV: MICRESS® Examples 61/68 Chapter 12 “Temperature” MICRESS® User Guide Volume IV: MICRESS® Examples 62/68 Chapter 12 “Temperature” MICRESS® User Guide Volume IV: MICRESS® Examples 63/68