To check the fit, Offset the top line in the sketch .25".  Use that line to split the body of the screw.  If the threads extend into the top of the screw, it will tighten. 

I suspect you will want to use the next size smaller screw😁

Thank you, and thanks to everyone who replied. Here's what's confounding to me... the screw head has a chamfer of 82 degrees, and when chamfering my hole, I used 41 degrees as the edge chamfer (82/2). I just used the Hole command and will compare results. 

@etfrench I prefer to use McMaster's technical drawings for reference. most of the time this will help you to figure out what hole size ect you will need.

The thickness of the material should be greater than the height of the head.  The 6mm thickness in the OP's file is less than the height of the head (5.94mm). (Will 60 microns make a difference?)  It's OK for .25" material.  If you use the diameter of the head from McMaster-Carr drawing, the screw will not fit flush by .004".

Yeah, I assumed this as well, but I'm dealing with making the plate part, and it's designed to unite with an off the shelf screw already in play, so I can't change the screw to suit the design... and it doesn't have to sit full flush. Frankly it could sit just shy of 1mm out and be fine. 

I am referencing McMaster's tech drawings BTW. Maybe saying that exposes that I don't fully understand what I'm looking at, which would be fair 🙂 But I got the head depth (5.94mm), the head diameter (19.84mm), and the head angle (82 degrees) all from the tech PDF.

As a side note, just to make sure I'm being clear... this is a ¼" plate in which I'm trying to recess a chamfered hole. The hole won't be threaded, and should be just large enough that the threads from the a 3/8-16 screw can pass through. The hex drive screw will sit in the chamfered hole, the head nearly flush to the plate... under the plate will be a metal box with a tapped 3/8-16 hole, and this metal box needs to sit flush with the underside of the plate once the screw is tightened, so that there's no play or rattle. 

Here's the hole parameters I'm entering...

Those numbers should work fine. .375" is only 9.52mm.

Frankly it could sit just shy of 1mm out and be fine.  

If you don’t know the finished height, you are wasting time.

Put a screw into the box, and wind it down to the physical stop, unwind one turn (or what suits).

Measure the distance from the box to the top screw face, place the screw in Fusion at that height from the underside of the plate, and Combine Cut the plate. 

No fussing about threads not tight in the end result.

There are many ways to get the right chamfer, all based on the height of the screw standing out of the box, and referenced from bottom of your plate.

Might help....

OK, I'm open to the idea that I am completely wrong in my assumptions, but isn't it the case that, assuming the threading on the screw *at least* terminates at the bottom of my plate... or, if the screw sits even a little higher (.25mm), so that the threading sits above the bottom of my plate... that I'm then guaranteed to get a tight fit, assuming the lower box which has 3/8 female receiver has threading flush with its top surface, or even countersunk a little? I just thought that we have some knowns and following them it should work... in other words, the beveled hole in which the screw head sits needs to merely: 1) match the head angle, 2) sit high enough above the bottom of the plate, which can be a spectrum of heights, provided it's a shorter distance than what is covered by the threading.

Don't assume anything, measure it.

You bolt has quite a lot of interfering transition between the lower countersink, and usable thread.

The interfering face highlighted blue, will / does / must interfere with the bottom object thread.

Creating a section sketch allows for the top of bolt to top of good thread, to be measured, and it is 9mm.

File updated.

Might help.....