Quote:
Originally Posted by Drew Hause
https://docs.google.com/document/d/1...vwLYc-kGA/edit
Let's assume the barrel is deeply pitted (or has been honed) and the wall thickness is dangerously thin. You tie the barrel in an old tire and remotely take 10 shots with low pressure RSTs; but the pressure generated is above the yield strength of the barrel wall. Each shot produces "low cycle fatigue" plastic deformation of the steel, which may not be measurable when checking for barrel bulging with a micrometer. With shot #11 the barrel bursts, sending a chunk of shrapnel toward the head of your hunting companion...or grandchild. And you own that shrapnel. Why take the risk?
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Agree, and certainty understand. That was the basis of my question. I fully understand the minimum thickness and from PM discussions sounds as if that's necessary no matter what. Sort of just thinking out loud on the test firing and enjoy the discussion on it. I get the sort of bending a piece of metal until it breaks scenario. I would suppose minimum thickness allow for enough initial resistance to prevent fatigue.
Trying to become knowledgeable on the subject before I have grandkids!