This is one of my more recent mold arrangements.
Some would say that this is a round pour basin, and I won't argue semantics.
This basin is directly over the sprue opening, and the path into the mold cavity is very short, since the top mold half is very thin.
And yes, I did spill some iron onto the ground, which generally happens when you get a bit anxious as the sprue becomes full, and you are keeping your eye on either the vents, or the riser, to be sure the mold filled completely.
And note that the concrete did not explode with molten iron spilled on it.
Concrete can explode if you spill enough metal on it, but from what I have seen in videos, it has to be something along the lines of an entire crucible of metal spilled suddenly on concrete.
What you can't see inside my typical mold is a smooth transition at the base of the spure into generally two runners, with no abrupt changes in direction or size from the size of the bottom of the spure.
My runners go past the mold cavity, and are contained in the drag only (drag being the bottom half of the mold).
The runners terminate in an offset circular spin trap (runner enters the round vertical trap on a tangent), which allows the flowing metal to spin around and trap debris, air, slag, sand, etc. as the spin trap is filling.
Once the entire runner system has filled with hot metal (you are preheating the runner when metal flows down to the spin traps), then the gates at the top of the runners begins to fill the mold cavity.
The gates are typically long and thin, such as 1/4" tall and 1" or more long.
The thinner the part, the longer and thinner the gates are, and often I use knife gates on thin parts.
Flow velocity is controlled by the gates only, and this prevents high velocity splashing inside the mold cavity as it fills.
The spin traps basically wash the sprue and runners out, getting rid of any lose sand, and preheating the runners.
Any air that is entrained in the molten metal as the sprue is initially filled gets washed down to the spin traps, and does not enter the mold cavity.
Once my round basin is filled, it also acts as a riser to prevent shrinkage defects.
You can that the top of the metal in the round basin is convex, which means that molten metal was drawn into the casting as it was shrinking and solidifying.
I have had good luck with this sprue/runner/trap/gate arrangement with both gray iron and aluminum, and get consistent results with it without defects.
If you add 1 oz of 75% ferrosilicon per 65 lbs of iron, the castings will be easily machineable without tempering, even if the casting is thin.
Any amount of ferrosilicon in excess of this amount will cause excessive shrinkage and hot tears in the castings.
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The files on the site will down load, but as Jasonb reply "Files won't open in the program". I tried in both the lastest version of Prusa slicer and UltiMaker Cura v 5.5.0. and no joy. But the files you email open in both slicer with no problem. Thanks again. 
