Anais do Seminário de Laminação, Conformação de Metais e Produtos


ISSN 2594-5297

Título

AI-SUPPORTED MATERIAL SIMULATION OF FORMING PROCESSES

AI-SUPPORTED MATERIAL SIMULATION OF FORMING PROCESSES

DOI

10.5151/2594-5297-39816

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Resumo

Realistic material simulation is becoming increasingly important in the mapping of forming processes. The more accurate the material data and models are, the better the match between the simulation and the results of the production process will be. Thus, AI methods are also increasingly used in material simulation, which leads to further improvement of the simulation results. The paper demonstrates the use of AI in the form of neural networks for the simulation of phase transformation processes in steels during cooling from the forming heat. In this context, new possibilities arise compared to the usual use of CCT diagrams: On the one hand, the influence of changes in chemical analysis and austenitization condition can be gleaned. On the other hand, temperature-time histories with variable cooling rates can be better understood. The results significantly improve the representation of the forming process in simulation programs. Two application examples show the influence on the development of microstructures in long products.

 

Realistic material simulation is becoming increasingly important in the mapping of forming processes. The more accurate the material data and models are, the better the match between the simulation and the results of the production process will be. Thus, AI methods are also increasingly used in material simulation, which leads to further improvement of the simulation results. The paper demonstrates the use of AI in the form of neural networks for the simulation of phase transformation processes in steels during cooling from the forming heat. In this context, new possibilities arise compared to the usual use of CCT diagrams: On the one hand, the influence of changes in chemical analysis and austenitization condition can be gleaned. On the other hand, temperature-time histories with variable cooling rates can be better understood. The results significantly improve the representation of the forming process in simulation programs. Two application examples show the influence on the development of microstructures in long products.

Palavras-chave

AI methods; Neural networks, Material simulation, Phase transformation, CCT diagram, Forming process

AI methods; Neural networks, Material simulation, Phase transformation, CCT diagram, Forming process

Como citar

Kruse, Michael; Wehage, Doris. AI-SUPPORTED MATERIAL SIMULATION OF FORMING PROCESSES , p. 389-400. In: 58º Seminário de Laminação, Conformação de Metais e Produtos, São Paulo, 2023.
ISSN: 2594-5297 , DOI 10.5151/2594-5297-39816