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You can explain it to me, but you cannot understand it for me. Having trouble to follow. ..... trying to explain it to myself.Just an odd comment about boring... I.E. parallel bores, not my posts.
"If its out by 0.002 inches over 4 inches is that too much?" - YES!
Many thing a lathe is really accurate and useful if you bore into a workpiece held in the chuck. - Not so. The travel of the tool describing a straight line through the workpiece relies totally upon the accuracy of the alignment of tailstock travel or saddle (for saddle mounted tools) to headstock (quill)... 1 degree misalignment gives you a 2 degree included angle taper.... NOT good for maintaining compression in an infernal combustion engine, hydraulic cylinder, etc..
BUT a tool mounted in the Quill, that traverses a workpiece mounted on the saddle or tailstock will always produce a parallel bore. - you just have to set the alignment of the workpiece to the alignment of the quill/mainshaft. I.E. a rotating tool describes a true circle, which will produce a "true" cylinder when traversed through a workpiece in a straight line.
Whatever anyone else shows on U-tube, you cannot escape geometry. (And "Modern" production methods - that I was taught in the 1960s...).
Hope that helps you get parallel bores on your aero engines? Makes a big difference to compression and running-in. (friction/wear) and lifetime of bearings.
Cheers.
K2
Set the compound to an angle, keep the saddle stationary and move the boringbar (mounted on compound) into the workpiece that rotates in the chuck. It results in a taper. (done that on purpose.... to get a taper)
Now I swap. I put the boring bar into the lathe chuck, and the workpiece into the toolpost. What do I get?
A boring bar with enough clearance should still make a round hole ? When an Endmill is used it will make some sort of an elypitical hole?( from what I guess)
Greetings Timo