Effect of Annealing Temperature on the Texture of Copper Wire

摘要

It has been found by textural analysis methods that, in the course of annealing with heating and cooling at a rate of 100 K/s, the textured state of an oxygen-containing copper wire of grade MOO deformed by drawing to 97% reduction changes, retaining the zonal structure. In the central zone, at a relative current radius from 0 to 0.3, the (111) orientation dominates to a temperature of 300°C. At the higher temperatures, the (100) orientation becomes dominant and remains up to 500°C. Al relative current radii of 0.6-1.0 (peripheral zone) and 0.3-0.6 (intermediate zone), the dominant (100) orientation is retained to 3()()°C; al the higher temperatures, the dominance of the (100) orientation levels off. As the annealing temperature increases, the intermediate zone wedges out at the expense of growth of the central and peripheral zones. On the whole, the annealing at high temperatures (above 400°C) leads to the predominance of the (100) orientation; it is highly dominant for relative radii of 0-0.5.