Stochastic modeling of spatially-dependent elastoplastic parameters in 316L stainless steel produced by direct energy deposition
The stochastic modeling and calibration of an anisotropic elasto-plastic model for additive manufacturing materials are addressed in this work. We specifically focus on 316L stainless steel, produced by directed energy deposition. Tensile specimens machined from two additive manufactured (AM) box-structures were used to characterize material anisotropy and random spatial variations in elasticity and plasticity material parameters. Tensile specimens were cut parallel (horizontal) and perpendicular (vertical) to the AM deposition plane and were indexed by location. These results show substantial variability in both regimes, with fluctuation levels that differ between specimens loaded in the parallel and perpendicular build directions. Stochastic representations for the stiffness and Hill's criterion coefficients random fields are presented next. Information-theoretic models are derived within the class of translation random fields, with the aim of promoting identifiability with limited data. The approach allows for the constitutive models to be generated on arbitrary geometries, using the so-called stochastic partial differential approach (to sampling). These representations are then partially calibrated using the aforementioned experimental results, hence enabling subsequent propagation analyses. Sampling is finally exemplified on the considered structure.
Duke Scholars
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- Mechanical Engineering & Transports
- 4017 Mechanical engineering
- 4016 Materials engineering
- 4005 Civil engineering
- 0913 Mechanical Engineering
- 0912 Materials Engineering
- 0905 Civil Engineering
Citation
Published In
DOI
ISSN
Publication Date
Volume
Related Subject Headings
- Mechanical Engineering & Transports
- 4017 Mechanical engineering
- 4016 Materials engineering
- 4005 Civil engineering
- 0913 Mechanical Engineering
- 0912 Materials Engineering
- 0905 Civil Engineering