Quote:
Originally Posted by nathan_hui
You won't be able to machine the female slots the way they are in the picture (at least not with conventional subtractive manufacturing). What you could do though is do a pair of slots oriented orthogonal to each other (one provides constraint in the Z axis, the other provides constraint in the Y axis, and the screw/surface provide constraint in the X axis). As for the male bosses, you'd clamp the piece in the vice so that the bosses would be sticking straight up, and mill across the top. Not very nice if you've got a long piece (or you'll want to use a horizontal mill). That tab design is generally reserved for plastics cut on a laser cutter.
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I assume you're replying to this post:
Quote:
Originally Posted by Nate Laverdure
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You're right, those sorts of joins are generally used in laser cut parts. However it can be done with normal machining, the design just needs to be modified a little. Your cutter will leave a radius in the corners of the female slots, so just add a matching radius to each corner of the male boss.
As long as there are still flats on each side of the boss and hole, there won't be a change in effectiveness. In fact, having the radii in the corners will increase the strength of both parts. (Sharp corners provide a convenient fracture point for the material)