My question is idealized as follows:

I take a thin section rod of cast iron say 1 mm square and clamp both ends in a manner that causes the rod to bend to a particular predefined curvature that has uniform distributed stress along the section. Then I heat it to a stress relieving temperature of say 600 deg. C. in order to relieve the induced stresses to “freeze” in the predefined curvature.

1) Will the induced stresses be relieved at the point they where induced, freezing in the desired curvature or will most of it be relieved at some arbitrary point according the metallurgy, uneven heating or whatever. My intuition says that stress relieving will not commence at all places at the same time and that stress relieved at the "first" point will change the stress values and therefore the curvature at all other points. Or do I misunderstand the metallurgy involve.

2) Do I go for rapid uniform heating or slow.

3) Would heating to an annealing temperature of say 800 deg. C be better or worse in the context of my objective?

To put my question into perspective the described (in use) process relates to the manufacture of small none commercial IC engine piston rings.

Any help would be most appreciated
Phil Burman
Stavanger, Norway