Comparative study of the experimentally observed and GAN-generated 3D microstructures in dual-phase steels

Ikumu Watanabe; Keiya Sugiura; Ta-Te Chen; Toshio Ogawa; Yoshitaka Adachi

doi:10.1080/14686996.2024.2388501

Article Comparative study of the experimentally observed and GAN-generated 3D microstructures in dual-phase steels

Ikumu Watanabe ; Keiya Sugiura ; Ta-Te Chen ; Toshio Ogawa ; Yoshitaka Adachi

Download file (11.9 MB)
Download as zip (11.5 MB)

Collection

Citation

Ikumu Watanabe, Keiya Sugiura, Ta-Te Chen, Toshio Ogawa, Yoshitaka Adachi. Comparative study of the experimentally observed and GAN-generated 3D microstructures in dual-phase steels. Science and Technology of Advanced Materials. 2024, 25 (1), . https://doi.org/10.1080/14686996.2024.2388501

(BibTeX)

Description:

(abstract)

In a deep-learning-based algorithm, generative adversarial networks can generate images similar to an input. Using this algorithm, an artificial three-dimensional (3D) microstructure can be reproduced from two-dimensional images. Although the generated 3D microstructure has a similar appearance, its reproducibility should be examined for practical applications. This study used an automated serial sectioning technique to compare the 3D microstructures of two dual-phase steels generated from three orthogonal surface images with their corresponding observed 3D microstructures. The mechanical behaviors were examined using the finite element analysis method for the representative volume element, in which finite element models of microstructures were directly constructed from the 3D voxel data using a voxel coarsening approach. The macroscopic material responses of the generated microstructures captured the anisotropy caused by the microscopic morphology. However, these responses did not quantitatively align with those of the observed microstructures owing to inaccuracies in reproducing the volume fraction of the ferrite/martensite phase. Additionally, the generation algorithm struggled to replicate the microscopic morphology, particularly in cases with a low volume fraction of the martensite phase where the martensite connectivity was not discernible from the input images. The results demonstrate the limitations of the generation algorithm and necessity for 3D observations.

Rights: