dgeesaman
Gold $$ Contributor
I agree but anneal in between those steps if you’re using the same piece of brass. Work hardening definitely changes the amount of spring back.
seating bullet mistake
- Thread starter Hypnotk
- Start date
It's just a test to get the jest of my point.
It's the grain breakage that causes the new balance, and why it's futile & detrimental to size down much beyond normal springback (excessively).
Think of brass forming like stretching a type of rubber band, whos grain structure breaks beyond ~1thou of stretch and will not allow recovery. So no matter what you stretch it to, no matter the forces it takes to do so, it only springs back ~1/2thou. It just yields to that new dimension.
With enough cycles of this, the rubber band will spring back less & less. It's structure is so broken that it resists movement in any direction. Without process annealing to recover the structure, the rubber band will crack & fail. It's not that it's springback force has changed, but that it's structure blocks that force from recovery. It's out of balance energy adding.
We need a useful range of this energy, so we NEVER desire a full anneal.
Ideally, we would neck size no more than 1thou (after springback), for no more than seated bullet bearing, and then perform a pre-seat expansion of necks with a mandrel at cal diameter (instead of using bullets to do this). Seated bullets would then be gripped by springback (as they are anyway) with minimal change to brass structure. With tension being force x area (PSI)(not friction, nor expansion forces), we would adjust tension amount through LENGTH of sizing.
If you keep your neck clearances reasonable along with this, necks can remain at consistent energy levels, providing consistent tension, for many cycles before annealing is needed at all.
This is good whether you anneal frequently or rarely.
No matter what you do though, be sure to load develop with your sizing plan in-place and stable.
It's the grain breakage that causes the new balance, and why it's futile & detrimental to size down much beyond normal springback (excessively).
Think of brass forming like stretching a type of rubber band, whos grain structure breaks beyond ~1thou of stretch and will not allow recovery. So no matter what you stretch it to, no matter the forces it takes to do so, it only springs back ~1/2thou. It just yields to that new dimension.
With enough cycles of this, the rubber band will spring back less & less. It's structure is so broken that it resists movement in any direction. Without process annealing to recover the structure, the rubber band will crack & fail. It's not that it's springback force has changed, but that it's structure blocks that force from recovery. It's out of balance energy adding.
We need a useful range of this energy, so we NEVER desire a full anneal.
Ideally, we would neck size no more than 1thou (after springback), for no more than seated bullet bearing, and then perform a pre-seat expansion of necks with a mandrel at cal diameter (instead of using bullets to do this). Seated bullets would then be gripped by springback (as they are anyway) with minimal change to brass structure. With tension being force x area (PSI)(not friction, nor expansion forces), we would adjust tension amount through LENGTH of sizing.
If you keep your neck clearances reasonable along with this, necks can remain at consistent energy levels, providing consistent tension, for many cycles before annealing is needed at all.
This is good whether you anneal frequently or rarely.
No matter what you do though, be sure to load develop with your sizing plan in-place and stable.
I take it you have not used a good quality digital scale. There are miles of difference between a Sartorius Entris or A&D FXI and a budget grade scale.
I usually prep cases up through priming and then set them aside until I know how many I want to charge. Usually I will have more prepped cases on hand than I’m going to charge. If I mess up on charging or seating a few, I just throw them in a bin and I will pull the bullet, recover the powder, and resize with no depriming pin later. Part of the reason is that I use a T7 turret press and my collet bullet puller is on a spare turret. I don’t want to mess with changing turrets just to pull one bullet.
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