Multi-objective optimisation of Resin Infusion

2019-01-14T16:52:24Z (GMT) by Giacomo Struzziero Alex Skordos
<p> </p><p><strong>Exhaustive_analysis.xlsx:</strong> </p><p> <br></p><p>-‘Exhaustive’ sheet: All the data gathered during the exhaustive search are reported. Column 1 to 8 report respectively the temperature of first and second dwell, duration of first dwell and ramp, convection coefficient, gate location, filling time and maximum degree of cure.</p><p> <br></p><p>-‘Gate-T1’ sheet: Reports the data to plot the 3D landscape</p><p> <br></p><p>-‘T1-T2’ sheet: Reports the data to plot the 3D landscape</p><p> <br></p><p> </p><p> <strong>Optimisation results.xlsx</strong></p><p> <br></p><p>-‘Results’ sheet: Reports the 13 generations the GA requires to converge to a final optimal Pareto front. Column 1 to 9 report respectively the generation number, temperature of first and second dwell, duration of first dwell and ramp, gate location, convection coefficient, filling time and maximum degree of cure.</p><p> <br></p><p>-‘Details of individuals’ sheet: Reports the detailed analysis f the different strategies of solutions belonging to different region of the Pareto.</p><p> <br></p><p> </p><p> <strong>Regions_analysis.xlsx</strong></p><p> <br></p><p>-‘Horizontal_flow_front_data’ sheet: Reports the compact data for the Temperature, viscosity and degree of cure evolution for an horizontal region solution</p><p> <br></p><p>-‘Viscosity_horizontal_region’ sheet: Reports the viscosity evolution for different nodes in the model for an horizontal region solution</p><p> <br></p><p>-‘Degree cure_horizontal_region’ sheet: Reports the degree of cure envelope for an horizontal solution </p><p> <br></p><p>‘Temperature_horizontal region’ sheet: Reports the temperature evolution for different nodes in the model for an horizontal region solution</p><p> <br></p><p>-‘Model_verification’ sheet: reports the analytical viscosity model implementation</p><p> <br></p><p>‘Vertical_flow front_data’ sheet: Reports the compact data for the Temperature, viscosity and degree of cure evolution for a vertical region solution</p><p> <br></p><p>-‘Degree_cure_vertical_region’ sheet: Reports the degree of cure envelope for a vertical solution region</p><p> <br></p><p>-‘Temperature_vertical_region’ sheet: Reports the temperature evolution for different nodes in the model for a vertical region solution</p><p> <br></p><p>-‘Viscosity_vertical_region’ sheet: Reports the viscosity evolution for different nodes in the model for a vertical region solution</p><p> <br></p><p>-‘Standard_flow_front_data’ sheet: Reports the compact data for the Temperature, viscosity and degree of cure evolution for the standard solution</p><p> <br></p><p>-‘Deg_cure_standard’ sheet: Reports the degree of cure envelope for the standard solution</p><p> <br></p><p>‘-Temperature_data_standard’ sheet: Reports the temperature evolution for different nodes in the model for the standard solution</p><p> <br></p><p>-‘Viscosity_standard’ sheet: Reports the viscosity evolution for different nodes in the model for the standard solution</p><p> <br></p><p>-‘Plots’ sheet: plots summary</p><p><br></p><p></p>