Abstract Scope |
Crystallographic texture is a rich data source, but when published in typical forms, e.g. as pole figures, it does not adhere to FAIR data principles. By publishing the data as an image, its reusability is severely limited. The texture encodes the effects of alloying and processing on relative deformation mode activities, making quantitative comparisons crucial. For example, during rolling the extent of basal pole splitting can be related the activity of pyramidal <c+a> slip. In this talk, we present a method for quantitatively reconstructing an ODF based on pole figure images. A variety of Mg alloy textures from the literature are recaptured and quantitatively compared. Using polycrystal plasticity simulations, their predicted mechanical behavior is evaluated. The relationships between alloying, processing, and texture features are discussed. |