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Scale CI & C2 to the various diameters your final shape requires, then move each pair to the appropriate height.Move C2 up by the thickness of your printed layer.Make C2 by rotating it’s peaks to coincide with the valleys of C1.divide each by the number of wiggles per loop, make an Interpolated curve C1 by using alternate points from each circle.)
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(Circle 1, Circle 2 offset from Circle 1 by the distance of a wiggle. Make a single 2D closed curve that has the number of wiggles you want each horizontal loop to have.Based on your photo it looks like the layer height is slightly less than the diameter of the extruded ceramic material.Īssuming your printer runs from a GCode script, if I were going to print this shape using your printer (it must be a pretty fancy machine) I’d do it like this: That’s what I’d recommend you do, but you’ll have to set your layer height to the thickness of the material stream your end effector emits. What is the source for your toolpath definition? Non-clay FDM printers generate the end effector tool path by using a slicing program that reads in an STL file definition of the part to be printed and outputs the GCode commands required to print it.