Everyone who has cast roundballs and many more that don't even cast them have heard about the infamous "casting void" or "bubble".
It forms right below the gate where the lead flows into the mold cavity.
It really isn't a "bubble". Rather, it is a void containing nothing but a pure vacuum.
It is caused by the lead flowing thru the gate, freezing, so the supply of lead to the cavity is shut off.
If the lead in the gate were to remain liquid as the newly cast ball was cooling, the shrinking ball would draw more lead into the mold thru the gate and be a solid casting without a void.
Usually, this does not happen.
More often than not, the lead in the gate freezes while the ball is trying to pull more lead in thru the gate. This results in a cavity filled with nothing at all. A vacuum.
A lot has been written about the need to position this casting void directly in line with the center of the bore.
Some say if this is not done, the ball may fly off in a unpredictable direction ruining the guns accuracy.
Testing has proven otherwise and I thought I might give my idea of an explanation for this.
In the world of physics, it is well known that a spinning object, if it is not restrained will spin around the objects center of gravity.
That is the place which has an equal amount of material or mass distributed around it in all directions.
Getting from the physics area into the real world of a cast ball, that center of gravity isn't far away from the actual center of the ball, even if there is a casting void.
Carrying this to the extreme, I've drawn a unusual case that could never really happen but it is about the worst case I could think of.
The cast void is so large that only half of the ball filled with lead!! :shocked2:
The remainder of the ball just has a thin skin on it that makes it look like a ball.
Notice, this drawing is to scale and the distance from the center of the ball to the center of gravity is correct for any ball that is cast with only half of the ball filled.
(The indicated center of gravity is based on the solid inner face meeting the thin shell in a sharp inside corner but I thought adding a fillet radius in that location would make it easier to see what I was trying to show.)
"OK. So the ball is spinning around the center of gravity. Doesn't that make the ball hit the target some place other than where the ball was aimed?"
Yes. It does.
"So, how far off of the place is the ball going to hit the target?"
The distance varies with the size of the ball but the answer in this worst case situation is, .375 X the ball's radius.
For a .50 caliber ball, the distance is .094" or 3/32 of an inch.
For voids smaller than my half ball, the amount of shift for the center of gravity because of the void would be less. Much less.
Before I sign off, yes, I know many of you have had "flyers" that were caused by something.
I'm only saying, they were caused by something other than the small cast void inside the ball being loaded in some unknown direction.
More likely, an errant shot due to a casting void is because of the different weight of the ball.
The bigger the void, the lighter the ball will be.
OK.
Now that I've stirred up the ant nest, I'll mosey on down the road. :grin:
It forms right below the gate where the lead flows into the mold cavity.
It really isn't a "bubble". Rather, it is a void containing nothing but a pure vacuum.
It is caused by the lead flowing thru the gate, freezing, so the supply of lead to the cavity is shut off.
If the lead in the gate were to remain liquid as the newly cast ball was cooling, the shrinking ball would draw more lead into the mold thru the gate and be a solid casting without a void.
Usually, this does not happen.
More often than not, the lead in the gate freezes while the ball is trying to pull more lead in thru the gate. This results in a cavity filled with nothing at all. A vacuum.
A lot has been written about the need to position this casting void directly in line with the center of the bore.
Some say if this is not done, the ball may fly off in a unpredictable direction ruining the guns accuracy.
Testing has proven otherwise and I thought I might give my idea of an explanation for this.
In the world of physics, it is well known that a spinning object, if it is not restrained will spin around the objects center of gravity.
That is the place which has an equal amount of material or mass distributed around it in all directions.
Getting from the physics area into the real world of a cast ball, that center of gravity isn't far away from the actual center of the ball, even if there is a casting void.
Carrying this to the extreme, I've drawn a unusual case that could never really happen but it is about the worst case I could think of.
The cast void is so large that only half of the ball filled with lead!! :shocked2:
The remainder of the ball just has a thin skin on it that makes it look like a ball.
Notice, this drawing is to scale and the distance from the center of the ball to the center of gravity is correct for any ball that is cast with only half of the ball filled.
(The indicated center of gravity is based on the solid inner face meeting the thin shell in a sharp inside corner but I thought adding a fillet radius in that location would make it easier to see what I was trying to show.)
"OK. So the ball is spinning around the center of gravity. Doesn't that make the ball hit the target some place other than where the ball was aimed?"
Yes. It does.
"So, how far off of the place is the ball going to hit the target?"
The distance varies with the size of the ball but the answer in this worst case situation is, .375 X the ball's radius.
For a .50 caliber ball, the distance is .094" or 3/32 of an inch.
For voids smaller than my half ball, the amount of shift for the center of gravity because of the void would be less. Much less.
Before I sign off, yes, I know many of you have had "flyers" that were caused by something.
I'm only saying, they were caused by something other than the small cast void inside the ball being loaded in some unknown direction.
More likely, an errant shot due to a casting void is because of the different weight of the ball.
The bigger the void, the lighter the ball will be.
OK.
Now that I've stirred up the ant nest, I'll mosey on down the road. :grin:
I got a new patch, and loaded that same ball back into the rifle,over my normal 55 gn Goex 3f powder charge, big ugly screw hole "UP". 
