| no. | Pages | Title | Authors |
| 4 | 236 – 244 | Tailor tempering and hot-spotting of press hardened boron steels | Lander Galdos, Eneko Saenz De Argandoña, Joseba Mendiguren, Nuria Herrero, Rafael Ortubay, Xabier Agirretxe, José Miguel Martín |
| 4 | 228 – 235 | Application of the diffusion equation to modeling phase transformation during cooling of pearlitic steel | Monika Pernach |
| 4 | 215 – 227 | Metamodel of the plane strain compression test as a replacement of fe model in the inverse analysis | Łukasz Sztangret, Mateusz Sztangret, Jan Kusiak, Maciej Pietrzyk |
| 4 | 206 – 214 | Identification of the static recrystallization cellular automata model parameters based on inverse analysis | Mateusz Sitko, Łukasz Madej, Roman Kuziak |
| 4 | 197 – 205 | Efficient cellular automata model for prediction of damage of hot forging tools due to thermal fatigue | Paweł Nowak, Łukasz Rauch |
| 3 | 190 – 196 | Modeling of austempered ductile iron using discrete signals | Andrzej Kochański, Przemysław Grzegorzewski, Artur Soroczyński, Anna Olwert |
| 3 | 180 – 189 | Comparison of the cbr methodology and the cart algorithm applied to problem of casting defects classification | Krzysztof Regulski, Gabriel Rojek |
| 3 | 167 – 179 | Ann-based metamodelling with clustering of output values as an approach to robust inverse analysis | Grzegorz Gorecki, Łukasz Rauch, Maciej Pietrzyk, Jan Kusiak |
| 3 | 160 – 166 | Survey of effectiveness of inverse analysis computation | Łukasz Sztangret, Danuta Szeliga, Jan Kusiak |
| 3 | 152 – 159 | Detection of virtual multi-identities | Andrzej Opaliński |
| 2 | 138 – 149 | Mathematical modelling of the tundish inertization practice | Bernardo Martins Braga, Roberto Parreiras Tavares |
| 2 | 131 – 137 | Experimental and numerical investigation of cold rolling of ferritic-pearlitic steels | Łukasz Madej, Roman Kuziak, Marcin Mroczkowski, Wiesław Madej, Wojciech Libura |
| 2 | 114 – 122 | Solution of the inverse continuous casting problem with application of the invasive weed optimization algorithm | Edyta Hetmaniok, Damian Słota, Adam Zielonka |
| 2 | 123 – 130 | Determination of the flow stress model of az80 mg alloy | Toko Tokunaga, Roman Kuziak, Kiyotaka Matsuura |
| 2 | 108 – 113 | Numerical identification of material parameters for microbuckling analysis of fiber reinforced polymer matrix composites | Marek Romanowicz |
| 2 | 99 – 107 | Identification of the flow stress model for the strip material subject to bulk deformation | Mateusz Ambroziński, Roman Kuziak |
| 1 | 94 – 98 | Sensitivity analysis as a support for optimization of industrial processes | Danuta Szeliga, Jan Kusiak |
| 1 | 86 – 93 | Optimization in multiscale thermoelastic problems | Adam Długosz |
| 1 | 75 – 85 | Proper assembly and geometrical parameters as a criterion for the computer aided design of manufacturing cycle for screws | Mariusz Skóra, Maciej Pietrzyk |
| 1 | 64 – 74 | Approach for an automatic optimisation of production chain as a tool for intelligent manufacturing in metal forming | Adam Legwand, Konrad Perzyński, Łukasz Madej, Maciej Pietrzyk |
| 1 | 53 – 63 | Experimental verification and validation of the phase transformation model used for optimization of heat treatment of rails | Roman Kuziak, Ryszard Molenda, Andrzej Wrożyna, Jan Kusiak, Maciej Pietrzyk |
| 1 | 37 – 52 | Validation of material models for bainitic steels used in optimization of manufacturing chain for fasteners | Roman Kuziak, Krzysztof Radwański, Konrad Perzyński, Łukasz Madej, Maciej Pietrzyk |
| 1 | 27 – 36 | Molecular models of polycrystalline and porous materials | Adam Mrozek |
| 1 | 20 – 26 | Metamodel driven optimization of thermomechanical industrial processes | Jan Kusiak, Łukasz Sztangret, Łukasz Rauch, Maciej Pietrzyk |
| 1 | 13 – 19 | The idea of the optimization strategy for industrial processes | Wacław Kuś, Waldemar Mucha |
| 1 | 3 – 12 | Computer system dedicated to optimization of production processes and cycles in metal forming industry | Łukasz Rauch, Mateusz Skiba, Jan Kusiak |
