I got this from SAM on ICCF, pretty good stuff.
Barrel Leading in Handguns or More Old Wives Tales
Every day on the boards I see a post about excessive barrel leading with cast bullets.
Invariably the culprit is “revealed” to be “soft bullets”. Nothing could be farther from the truth.
There are many causes for leading, rough bores, gas cutting and very seldom “soft bullets”.
Rough bores account for maybe 5% of the leading cases in handguns. The mechanism is simple, the rough surface snags off lead particles and leaves them in the bore either hung on the rough spot or laying behind on the bottom of the bore. As successive bullets pass the area, more lead is dragged off, a gap is left between the torn spot on the bullet and the bore and the primary cause of leading, gas cutting, takes over.
Soft bullets are the cause in less than 5% of the leading I see in handguns. In this case a really soft bullet is deformed from the base forward by the hot gasses of powder combustion, until a gap is left between the bullet and bore, then gas cutting takes over. To make this happen the bullets resistance to deformation must be less than the pressure of the gas. I see this in handguns when the pressure of the round exceeds about 25K CUP and the alloy is less than 6 BHN. That relates to dead soft lead and a full power load in a 9mm/357/41 Mag/44 Mag class cartridge. For reference purposes, most wheel weight metal I come across is about 8 BHN and needs to be softened for good use in 17K 38 special loads.
Now we get to the primary cause of gas cutting which is failure to obdurate or seal the bore. It can happen thru either or a combination of 2 mechanisms. Number one is a bullet that is undersized for the bore. Generically speaking a cast bullet should be .001” larger than the groove diameter. If the bullet is below this in size, either through initial manufacture or by being resized down by a tight cylinder throat, gas escapes through the “gap between the bullet and bore. This gas, acting much like the flame of a cutting torch, vaporizes bullet metal and deposits it in the bore. Succeed in bullets pass over the deposit, are further deformed by the “lump” and more gas cuts past making the problem worse and worse.
Many blame leading on poor lubrication but in actuality the lube has very little to do with it. 90% of a lubricant’s effect is in gas sealing. The other 10% is real lubrication, which is why shooting unlubricated bullets makes a progressive leading effect. 1 unlubricated bullet of adequate alloy and properly sized shows almost zero leading.
Now I will go to where you get your leading. Your bullets are too hard!
If the bullet isn’t sized to obdurate the bore, it has to depend on gas pressure to upset its base to completely fill the bore. If you have a bullet of 20-22 BHN (like most of the so called, “hard cast” bullets) that is sized to groove diameter, you get gas cutting. It takes roughly 40KCUP to upset the ‘hard cast” bullet to where it will seal the bore. Want to take a guess on what the SAAMI spec for max pressure is in a 38 +P? It is 18.5K.
For the 9mm and 357.it is 35K. You can readily see that only the very heaviest loads in 9 and 357 will upset the bullet to fill the bore. Of course most folks only use cast bullets for “light loads” because the lead so much and make the problem progressively worse.
For best results:
#1 make sure that the bullets are sized for your groove diameter 9and aren’t resized smaller by a tight throat)
#2 make sure that you use an alloy suitable for the round you are shooting i.e. “softer” bullets for lower pressure loads.
#3 match your loads to the deformation pressure of the alloy used, i.e. “heavy” loads for hard bullets.
If you must use a hard bullet in a light load, make sure that you have a bullet that is .001-.002” larger than bore diameter, WHEN IT GETS TO THE BORE (I’ll get into tight throats another time).
