![]() This picture is after I used the 3" shell mill to flycut the receiver down to the correct thickness, and then used a carbide endmill to contour around the outside. Here you can see how I made a rough pass around the outside of the receiver to remove most of the extra material. In this picture you can see what the early setup blocks looked like, the current setup blocks are much more advance than this early version. In order to hold the receiver flat and square, I had to design a setup block that the receiver could set on while it was in the vice. Here you can see what it looked like at the start of the 2nd operation. Here's what it looked like after the 1st operation.įor the 2nd operation, I flipped the receiver over and machined the other side to remove the big slab of material. You will see that I engraved AUTO, but this is strictly for looks!!! Since I don't want to spend any time in prison, I never have and never will make any full auto weapons. I also engraved on the side of the receiver. The next step was to do all the detail machining and drilling the holes. Here you can see what the receiver looked like after the finish profiling pass. Machining the receiver the way I did wasn't the most cost effective way, but I wasn't real worried about time, since this was my new hobby. If you had a part that was 7" long, and using a 0.004" step over, it would have to make 1,750 passes. So as you can imagine this process takes a really long time. I started at one end of the receiver and machined across the whole profile stepping over 0.004" each time. You can tell that it's already starting to look like a lower receiver.Īfter the profile was roughed, I then made a finish pass with a 1/4" carbide ball nose endmill. Here you can see the 1/2" carbide ball nose endmill roughing the profile. Here is what the lower receiver looked like at the start of the 1st operation. I cut the 5x2 billets of aluminum, and I was almost ready to start doing some cutting. After I programmed all the tool paths that I wanted the CNC machine to make, I sent the program out to the machining center. Since I already had the solid model of the lower receiver (the CAD part), all that was left was the CAM. ![]() CAM is often used along with CAD (Computer Aided Design) and this process is called CAD/CAM. After I had my game plan together, I started programming the lower receiver using a type of computer software called CAM (Computer Aided Machining). I spent many hours coming up with a game plan of how I was going to machine the lower receiver. After I found the solid model file for the AR-15 lower receiver, I knew what I wanted to do could be done. ![]() But instead of starting with a forging, I thought I wanted more of a challenge so I started with a block (billet) of aluminum. That got me thinking that I could do the same thing with CNC (Computerized Numerical Control) equipment. He done a great job of showing all the details of his work. He started with a raw forging, which is basically a block of aluminum, but in the shape of lower receiver. Ryan at Roderus Custom Gunworks was working on. I got the idea when I saw the lower receiver forging that Pvt. AR-15 lower receiver was the first project that I started. A version of the tool for hardened steel (ISO-H) is also available. max ST can be used effectively on stainless steels.This is a particular advantage on less robust machines.In addition to its primary steel application, the Proto This enables the tool to be used effectively in less-than-stable clamping arrangements or where there are irregularities in the workpiece. max ST design features reduce cutting forces and spindle loading.The three flute tool permits slotting depths of up to 2xD, with up to 1.5xD for the four flute tool. There is a 45 degree helix angle on the three flute design while the four flute design has a 50 degree helix angle, both of which promote improved chip evacuation and surface finish. Variable flute spacing on the four flute model reduces harmonics that can cause vibration. max ST is available in a range of diameters from 1/16-3/4-in, and in three and four flute designs.Due to its chemical composition the coating has a lower affinity with steel, resisting build-up at the edges and boosting tool life. In addition, there is a new type of coating with a zirconium nitrite-based surface layer. These include an optimized geometry that provides enhanced stability for the cutting edges, and a special surface treatment on the shank for a firm grip. Productivity enhancing features allow this tough new end mill to achieve material removal rates up to 50% greater than standard solid carbide end mills.
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