Newbie question: holding 5.5" square stock on a 45 degree angle

I know this is off topic,did you take pictures of the process of making the angle plates or maybe you can just post the pictures of the finished product. That is if you don't mind sharing.
Michael

Michael,

Give me a little time and I will make up a post for you and also an explanation of the process I used. I have to go to the dentist today but will have time later on today. Thanks for asking. I will put it on this thread.
 
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I have a little time now so here goes.

There are several ways to make these angle plates. One way is to mount your
roughed out angle plate on a rotary table and set each angle and mill each side
smooth. It's quite accurate and quick do but requires a rotary table.



P1020170.JPG

Another method is to use a digital readout on the mill to determine the angle.
I used the DRO to place the pair of quarter inch holes in some of the ones
with the smaller angles. You can use a sine chart to determine placement of the holes. It's not hard once you look at a sine chart for a certain angle.
Mark the two holes and drill 1/4 inch holes. If you want to get real accurate,
drill the holes one size smaller than 1/4 and ream to 1/4 inch. Then install
a pair of 1/4 inch dowel pins into the holes and fit into the vise so the plate is
hanging on the pins. Then tighten the vise and mill off enough material until
the milled surface is flat. If you don't have a digital read out, you can position the
tholes using the dials on the mill.

Joe Pieczinski has a real good You Tube video of this, way better than
my explanation here.....Look up angle plates on YouTube under Joe Pi.



P1020171.JPG






That is the best ways I know to make your own angle plates. I use 1/4 inch
thick material to make these and will make pairs of them for the more commonly used angles.

There are other ways as well. You can use a little simple trigonometry
to find the corners of a plate and lay it out that way. Scribe the lines
in lay out dye and position in the mill vise very carefully and mill off each side. This method is going to be less accurate depending on how well you measure
and position.

My first choice is the rotary table followed by the DRO method. The trig
method will work but accuracy will likely suffer somewhat possibly due to measurement difficulty.

There are probably other ways as well to accomplish this as well.

If I can help in any way or if you have any questions, feel free to ask.
 
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I was just screwing around with this last night so allow me to inject my ignorant 2 cents. My tram is Hand of God perfect and I didn't want to mess with it if there was another way. I have to put a 45 degree bevel on one corner of 4 parts and decided to use the ability to compare otherwise identical paths as a learning experience.

First try... hold down on the table itself. STEP ONE - (Photo "...941" below) - first set up 45-deg with a v-block. Note that it's referenced off an imprecise painted surface of the vise via a 123 block but at least with my squares, that surface is nuts on for the purposes of this exercise. The part is located on top of a 123 block... both the block and the part reference off the block. Clamp it down. STEP TWO - To supply a decent "moment of resistance" to the clamped part, add a second clamp... remove the v-block and apply it's clamp to the part. Now there are two hold downs. (Photo 555).

Second method... On the bench, I created a squared-up 123-block sandwich with a part on each side, primarily to protect the surface of the block from the clamp. The clamp had to be angled in a matter that allowed the v-block to mate up to the right side of the assembly (v facing left) during clamping in the vise (v-block shown removed). I centered the assembly above the vise screw.

I chose to abandon the First Try because I just didn't like the one-way up-force I was applying to the hold down slots. I can crank the hell out of the bolts holding down my vise because my vise resists the pulling against the table. Not so with the setup described. I just don't have the experience to know/divine the answer so I'm conservative. Nihil perditi:) So I did the first two corners via method two.

Conclusion...... WAY too many heartbeats spent pondering this. I didn't learn anything new and I could have been doing something more useful. The second two will be done by rotating the head to 45 degrees and holding the parts simply in the vise.

My two cents.

Thanks! Sorry for the delay, I never got notified that there were new posts. Being so new to machining it's good to see these practical examples of setups that I'd never think of. I don't have the machinist mindset yet, but someday!
 
Thanks! Sorry for the delay, I never got notified that there were new posts. Being so new to machining it's good to see these practical examples of setups that I'd never think of. I don't have the machinist mindset yet, but someday!

First, it was my pleasure. Glad it helped. You and I are both rookies, but you made my night right there:)

Second, I finally got around to throwing the head over and making the cuts. Easy peasy.

CW

20180303_210816-1.jpg
 
Wouldn't a 45deg bevel cutter, with the work held flat, do what the OP wants?
Now that's another way of looking at things
I was just thinking about this topic last night as I need to make a batch of wooden, steel, and aluminum vee blox.

I'm gonna start out with an angle vise as I too do not want to have to tram my mill as with my luck, I'll break the clamp setting it up!
 
If you are trying to make a hammer like you have shown in the pic. I would double check the angle. It does not look like 45°. The four 5.5” corners, yes. But not all the angles on the hammer faces…Dave

And I would use something like a single angle cutter and not tilt the head. The single angle cutter leaves a much nicer finish when all is said and done.
 
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If you are trying to make a hammer like you have shown in the pic. I would double check the angle. It does not look like 45°. The four 5.5” corners, yes. But not all the angles on the hammer faces…Dave

And I would use something like a single angle cutter and not tilt the head. The single angle cutter leaves a much nicer finish when all is said and done.

You are correct, the angles of the strike faces on the hammer are 27.5 degrees. I would need a custom made endmill for that (without using one of the tricks mentioned here like tilting the head). Maybe someday in the future if I make more of them I'll have the custom endmills made but they are like $200-300 a piece. This will be the second hammer I've made (the first one, as shown, was all hand-ground and sanded and such). 150 hours of work.

Now that's another way of looking at things
I was just thinking about this topic last night as I need to make a batch of wooden, steel, and aluminum vee blox.

I'm gonna start out with an angle vise as I too do not want to have to tram my mill as with my luck, I'll break the clamp setting it up!

Yeah I guess the biggest problem is finding a vise like that opens wide enough that can handle 150lbs but I'll look around.
 
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