Abstract
Cold compression textures, tension textures and crystallite microstrains of an AlMg 3 aluminum wrought alloy were simulated using the Taylor–Bishop–Hill theory and an elastic unloading model. The results of the simulations are compared to inverse pole figures determined by X-ray diffraction and ε ϕψ vs sin 2 ψ-curves determined using synchrotron radiation. It is shown that the texture evolution has a strong influence on the crystallite microstrains and produces non-linear microstrain curves, which can be interpreted and evaluated using the results of the simulations.
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