Advances in Design by Metallic Materials: Synthesis, Characterization, Simulation and Applications
Advances in Design by Metallic Materials: Synthesis, Characterization, Simulation and Applications
English[eng]
9783040000000
material properties prediction||experimental data analysis||ductile/spheroidal cast iron (SGI)||compact graphite cast iron (CGI)||Machine Learning (RF)||pattern recognition||Random Forest (RF)||Artificial Neural Network (NN)||k-nearest neighbours (kNN)||tribology||wear||slurry erosion||coating||cermet||spheroidal graphite cast iron||pack aluminizing||microstructure||high-temperature oxidation resistance||hybrid composite||wear performance||ZA27 alloy||deflection||plates||stiffeners||numerical simulation||Constructal Design||austenitic stainless steel||tensile properties||artificial neural network||MIV analysis||pallet rack||moment-rotation curve||connection||experiment||numerical analysis||thermomechanical processing||grain growth||forging||retained austenite||bainitic microstructure||extended finite element method (xFEM)||polarization curve||long-term operated metals||hybrid materials||fatigue crack growth||stress intensity factors (SIF)||linear regression||micromagnetic testing||hardness||case hardening depth||phase-field modeling||modified damage model||large-strain plasticity||S355J2+N steel||ductile fracture||two-stage yield function||copper coatings||pulsating current (PC)||composite hardness models||creep resistance||n/a
English[eng]
9783040000000
material properties prediction||experimental data analysis||ductile/spheroidal cast iron (SGI)||compact graphite cast iron (CGI)||Machine Learning (RF)||pattern recognition||Random Forest (RF)||Artificial Neural Network (NN)||k-nearest neighbours (kNN)||tribology||wear||slurry erosion||coating||cermet||spheroidal graphite cast iron||pack aluminizing||microstructure||high-temperature oxidation resistance||hybrid composite||wear performance||ZA27 alloy||deflection||plates||stiffeners||numerical simulation||Constructal Design||austenitic stainless steel||tensile properties||artificial neural network||MIV analysis||pallet rack||moment-rotation curve||connection||experiment||numerical analysis||thermomechanical processing||grain growth||forging||retained austenite||bainitic microstructure||extended finite element method (xFEM)||polarization curve||long-term operated metals||hybrid materials||fatigue crack growth||stress intensity factors (SIF)||linear regression||micromagnetic testing||hardness||case hardening depth||phase-field modeling||modified damage model||large-strain plasticity||S355J2+N steel||ductile fracture||two-stage yield function||copper coatings||pulsating current (PC)||composite hardness models||creep resistance||n/a