Düsengeometrie 1
Länge der Düse
[m]
Radius der Düse
[m]
Radius des Zylinders
[m]
Düsengeometrie 2
Länge der Düse
[m]
Radius der Düse
[m]
Radius des Zylinders
[m]
Messwerte für Düse 1
Auflagemasse
[kg]
Schmelzindex
[cm³/10 min]
Standardabweichung
[]
Temperatur
[]
1 2 1 200 2 4 1 200 3 5 1 200 11 1 1 1 1 1 1 1
Messwerte für Düse 2
Auflagemasse
[kg]
Schmelzindex
[cm³/10 min]
Standardabweichung
[]
Temperatur
[]
Auflagemasse MVR STABW Temperatur 1.200 0.11 0.0 200 2.160 0.22 0.0 200 3.800 0.47 0.0 200 5.000 0.7 0.0 200 8.475 1.3 0.0 200 10.000 3.0 0.0 200 14.675 7.4 0.0 200 21.600 22.3 0.0 200 26.275 37.5 0.0 200 1.200 0.51 0.0 230 2.160 1.1 0.0 230 3.800 2.6 0.0 230 5.000 4.0 0.0 230 8.457 7.2 0.0 230 10.000 15.7 0.0 230 14.675 40.8 0.0 230 21.600 117.7 0.0 230 26.275 212.0 0.0 230 0.325 0.27 0.0 250 1.200 1.2 0.0 250 2.1600 2.5 0.0 250 3.800 5.7 0.0 250 5.000 9.1 0.0 250 8.475 16.4 0.0 250 10.000 37.0 0.0 250 14.675 91.5 0.0 250 21.600 284.3 0.0 250 1 4 1 200 2 6 1 200 3 12 1 200 1 1 1 1
Materialmodelle
Carreau Arrhenius
monte-carlo-fit output: P_Carreau_1 = 8087.33435612409 [Pas] P_Carreau_2 = .2122951874720122 [1/s] P_Carreau_3 = 0.648847995788312 [-] mean relative error: .05679465881078261 elapsed evaluation time: 11.330882 P_CWLF_1 = 12102.88555019991 [Pas] P_CWLF_2 = .3816083990678092 [1/s] P_CWLF_3 = .6261649661768657 [-] P_CWLF_4 = 230 [C] P_CWLF_5 = 533.6272449243222 [C] mean relative error: .08322707826787229 elapsed evaluation time: 297.639098 P_CA_1 = 12042.70954316203 [Pas] P_CA_2 = .1703688729454295 [1/s] P_CA_3 = .7312713167317598 [-] P_CA_4 = 100581.5857703483 [J/mol] P_CA_5 = 493.5727293300034 [K] mean relative error: .09145326625072356 elapsed evaluation time: 108.579636
Carreau WLF
monte-carlo-fit output: P_Carreau_1 = 8087.33435612409 [Pas] P_Carreau_2 = .2122951874720122 [1/s] P_Carreau_3 = 0.648847995788312 [-] mean relative error: .05679465881078261 elapsed evaluation time: 11.330882 P_CWLF_1 = 12102.88555019991 [Pas] P_CWLF_2 = .3816083990678092 [1/s] P_CWLF_3 = .6261649661768657 [-] P_CWLF_4 = 230 [C] P_CWLF_5 = 533.6272449243222 [C] mean relative error: .08322707826787229 elapsed evaluation time: 297.639098 P_CA_1 = 12042.70954316203 [Pas] P_CA_2 = .1703688729454295 [1/s] P_CA_3 = .7312713167317598 [-] P_CA_4 = 100581.5857703483 [J/mol] P_CA_5 = 493.5727293300034 [K] mean relative error: .09145326625072356 elapsed evaluation time: 108.579636
Carreau Arrhenius
monte-carlo-fit output: P_Carreau_1 = 8087.33435612409 [Pas] P_Carreau_2 = .2122951874720122 [1/s] P_Carreau_3 = 0.648847995788312 [-] mean relative error: .05679465881078261 elapsed evaluation time: 11.330882 P_CWLF_1 = 12102.88555019991 [Pas] P_CWLF_2 = .3816083990678092 [1/s] P_CWLF_3 = .6261649661768657 [-] P_CWLF_4 = 230 [C] P_CWLF_5 = 533.6272449243222 [C] mean relative error: .08322707826787229 elapsed evaluation time: 297.639098 P_CA_1 = 12042.70954316203 [Pas] P_CA_2 = .1703688729454295 [1/s] P_CA_3 = .7312713167317598 [-] P_CA_4 = 100581.5857703483 [J/mol] P_CA_5 = 493.5727293300034 [K] mean relative error: .09145326625072356 elapsed evaluation time: 108.579636
Carreau WLF
monte-carlo-fit output: P_Carreau_1 = 8087.33435612409 [Pas] P_Carreau_2 = .2122951874720122 [1/s] P_Carreau_3 = 0.648847995788312 [-] mean relative error: .05679465881078261 elapsed evaluation time: 11.330882 P_CWLF_1 = 12102.88555019991 [Pas] P_CWLF_2 = .3816083990678092 [1/s] P_CWLF_3 = .6261649661768657 [-] P_CWLF_4 = 230 [C] P_CWLF_5 = 533.6272449243222 [C] mean relative error: .08322707826787229 elapsed evaluation time: 297.639098 P_CA_1 = 12042.70954316203 [Pas] P_CA_2 = .1703688729454295 [1/s] P_CA_3 = .7312713167317598 [-] P_CA_4 = 100581.5857703483 [J/mol] P_CA_5 = 493.5727293300034 [K] mean relative error: .09145326625072356 elapsed evaluation time: 108.579636
(Die Berechnung eines Fits kann mehrere Minuten beanspruchen)