Warning, rabbit hole subject but I think many will be interested.
TLDR: Yellow Brass (aka cartridge brass) contains a high amount of zinc. Unlike pure brass, zinc becomes harder when quenched after heated... therefore, if you quench your brass in the annealing process, it can harden the brass.
<quote>"Since yellow brass has a fairly high zinc content, it's worth taking a look at how this effects the annealing and hardening process. Zinc itself, with minimal impurities, can be quenched and hardened at temperatures between 20-200 degrees Celsius.
In simple terms, brass can be minimally quench hardened. I write this with a big mental asterisk that emphasizes the 'minimal.'
Brass with 30% or greater zinc content has the potential to quench harden in measurable amounts. While it may not be something that reloaders will notice, it can affect the accuracy of reloads.
So, I will say it again, using a torch over water to anneal and then dunking your brass cases will harden them." <unquote>
Now for the rabbit hole: I anneal my brass, and I quench it in water to prevent annealing the case head area via convection. I'm not aware of this causing any issues in my handloads but wonder if this could influence group sizes and velocity spread? Is this worth considering not quenching brass? Can annealing affect the case head area if left unquenched?
My opinion of the article is that while he makes his point, he doesn't provide a solution... hence the "rabbit hole".
TLDR: Yellow Brass (aka cartridge brass) contains a high amount of zinc. Unlike pure brass, zinc becomes harder when quenched after heated... therefore, if you quench your brass in the annealing process, it can harden the brass.
<quote>"Since yellow brass has a fairly high zinc content, it's worth taking a look at how this effects the annealing and hardening process. Zinc itself, with minimal impurities, can be quenched and hardened at temperatures between 20-200 degrees Celsius.
In simple terms, brass can be minimally quench hardened. I write this with a big mental asterisk that emphasizes the 'minimal.'
Brass with 30% or greater zinc content has the potential to quench harden in measurable amounts. While it may not be something that reloaders will notice, it can affect the accuracy of reloads.
So, I will say it again, using a torch over water to anneal and then dunking your brass cases will harden them." <unquote>
Now for the rabbit hole: I anneal my brass, and I quench it in water to prevent annealing the case head area via convection. I'm not aware of this causing any issues in my handloads but wonder if this could influence group sizes and velocity spread? Is this worth considering not quenching brass? Can annealing affect the case head area if left unquenched?
My opinion of the article is that while he makes his point, he doesn't provide a solution... hence the "rabbit hole".
Brass Hardening in Reloading
Several months ago, I wrote about annealing cases and some of the benefits and struggles associated with annealing brass.
midsouthshotreport.com
. My first shot at annealing came after dealing with once fired LC 5.56 brass splitting necks and shoulders. I used the deep socket in a drill over the flame method and dumped them in the water and it was a PITA drying them out. I quickly learned that the only part of the brass effected by the heat is the part that starts to turn red and water did not offer any benefit to the process other than being able to handle your brass quicker.
