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- Title
Machine Learning Models of Plastic Flow Based on Representation Theory.
- Authors
Jones, R. E.; Templeton, J. A.; Sanders, C. M.; Ostien, J. T.
- Abstract
We use machine learning (ML) to infer stress and plastic flow rules using data from representative polycrystalline simulations. In particular, we use so-called deep (multilayer) neural networks (NN) to represent the two response functions. The ML process does not choose appropriate inputs or outputs, rather it is trained on selected inputs and output. Likewise, its discrimination of features is crucially connected to the chosen inputoutput map. Hence, we draw upon classical constitutive modeling to select inputs and enforce well-accepted symmetries and other properties. In the context of the results of numerous simulations, we discuss the design, stability and accuracy of constitutive NNs trained on typical experimental data. With these developments, we enable rapid model building in real-time with experiments, and guide data collection and feature discovery.
- Subjects
MACHINE learning; MATERIAL plasticity; REPRESENTATION theory; ARTIFICIAL neural networks; SIMULATION methods &; models
- Publication
CMES-Computer Modeling in Engineering & Sciences, 2018, Vol 117, Issue 3, p309
- ISSN
1526-1492
- Publication type
Article
- DOI
10.31614/cmes.2018.04285