1. A Numerical Study of Multiple Adiabatic Shear Bands Evolution in a 304LSS Thick-Walled Cylinder.
- Author
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Mingtao Liu, Haibo Hu, Cheng Fan, and Tiegang Tang
- Subjects
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METAL analysis , *STAINLESS steel , *LOCALIZATION theory , *GAUSSIAN distribution , *MICROSTRUCTURE , *YIELD stress - Abstract
The self-organization of multiple shear bands in a 304L stainless steel(304LSS) thick-walled cylinder (TWC) was numerically studied. The microstructures of material lead to the non-uniform distribution of the local yield stress, which play a key role in the formation of spontaneous shear localization. We introduced a probability factor satisfied the Gaussian distribution into the macroscopic constitutive relationship to describe the non-uniformity of local yield stress. Using the probability factor, the initiation and propagation of multiple shear bands in TWC were numerically replicated in our 2D FEM simulation. Experimental results in the literature indicated that the machined surface at the internal boundary of a 304L stainless steel cylinder provides a work-hardened layer (about 20~30μm) which has significantly different microstructures from the base material. The work-hardened layer leads to the phenomenon that most shear bands propagate along a given direction, clockwise or counterclockwise. In our simulation, periodical single direction spiral perturbations were applied to describe the grain orientation in the work-hardened layer, and the single direction spiral pattern of shear bands was successfully replicated. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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