Will lasers make wigglers obsolete? There’s a case to be made that you can set up your mill faster and with less fuss with a tool like the pictured laser edge/center finder. Move the laser beam to the edge of the workpiece and zero your scale. You can just as easily locate the mill over scribed lines or center-punch divots by aligning the laser dot over them.
The finder is accurate to 0.001″ and the dot size is adjustable with a polarizing attachment. The finder uses SR44 batteries that last for over three hours of continuous operation; of course you’ll probably only turn on the finder for short sessions, so the batteries should last a while.
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Wayne State University’s Warrior Racing recently needed to machine a sheet of Nomex-honeycomb carbon fiber, a piece of a scratch-built custom steering wheel. It’s a bit of a challenge machining the stuff since it’s an extremely hard fiber suspended in a soft synthetic. After a few experiments, we ran everything at very low feed rates and ridiculous spindle speeds, which is a bit contrary to popular wisdom when machining hard materials.
Carbide is the cutter of choice, in the four-flute flavor, just like machining steel. The same goes for feed rates — right around 2.4 inches per minute seemed to be a sweet spot with a 5/8 in. end mill and maxed-out 3000 RPM spindle speed. Without a CNC system, the feed rate will be hard to match precisely, and there aren’t any chips whose colors can tell you to speed up or slow down.
Speaking of chips, the leftovers from machining carbon are nasty. Fiberglass and carbon weave are nasty enough, but this stuff is coated in epoxy and comes off in unbelievably thin spear-like flakes. The latex gloves the machinists wear are a must, as is a respirator and a vacuum to remove as much dust and as many flakes as possible. Even so, I managed to get a few wicked splinters when cleaning up the part edges. Oh — wash your hands before you use the bathroom afterward.