Laser Cut Inlay

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Revision as of 01:25, 12 January 2017 by Cedarm (talk | contribs) (Add images to steps)
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Sample of wood inlay using laser cutter

This guide explains a method of adjusting a drawing to account for the kerf (the width of the cut).

Calibrate

Each material and combination of speed and laser power will produce cuts of differing widths. You MUST do some test cuts and engraves in samples of your actual materials. Choose a convenient dimension such as 5 mm or 10 mm. Record your speed and laser power settings for reuse later.

Measure the kerf for inlay cuts

Cut a small test sample of your actual inlay material. Record your settings! Ensure that each edge you will measure has been cut by the laser (i.e. don't measure from a stock cut side to a laser cut side). Carefully measure the result with calipers and subtract the measurement. For example 10 mm test measuring 9.92 mm has a kerf of 0.080 mm (80µm).

Determine settings for proper depth

Engrave a small test recess into a scrap of your actual material. Record your settings! Measure the depth, adjust settings and repeat until the depth measures slightly less than the thickness of your inlay material. Be sure to record your final settings!

Drawing preparation

The drawing must consist of solid vector shapes. Set the fill and remove the stroke, then size to actual dimensions. (Measurements in Inkscape include the line/stroke thickness.) You cannot simply scale the drawing later as doing so would scale the kerf adjustments too. Also, you may want to set the drawing to a known size, such as fit to objects plus 5 mm margin on all sides.

Create inside and outside shapes

We'll use the shapes' own stroke width to create cutting paths with proper inside and/or outside dimensions. The inlay cuts will be oversized by the kerf measured above, and the recess will be undersized. In this example we will exaggerate the adjustments for the sake of illustration (+0.75 mm and -0.25 mm). Use your own measurements in your drawing.

In this method we will export the drawing as a raster, import the raster, then use the Trace Bitmap feature to convert it back to a vector shape. It's not perfect, but this method seems to work well in practice.

Shape with grey fill and red stroke
Result with blue inlay and green recess paths

work in progress

Enlarge shapes for inlay

Gear-inlay-tutorial-result-oversized.png
  1. set fill and stroke to solid black, stroke width to 0.75 mm
    Gear-inlay-tutorial+0.75.png
  2. export to png (raster), whole page, 5080 dpi, good filename
    Gear-inlay-tutorial-export-oversized.png
  3. remove fill and set stroke width to something small
  4. import raster image
  5. align to page
  6. Trace Bitmap, not smooth?
    Gear-inlay-tutorial-trace-bitmap.png
  7. on new object: remove fill, set stroke color and width to something small
    Gear-inlay-tutorial-result-oversized.png
  8. remove raster image

Shrink shapes for recess

Gear-inlay-tutorial-result-undersized.png
  1. set fill to solid black and stroke to solid white, stroke width to 0.25 mm
    Gear-inlay-tutorial-0.25.png
  2. export to png (raster), whole page, 5080 dpi, good filename
    Gear-inlay-tutorial-export-oversized.png
  3. remove fill and set stroke width to something small
  4. import raster image
  5. align to page
  6. Trace Bitmap, not smooth?
    Gear-inlay-tutorial-trace-bitmap.png
  7. on new object: remove fill, set stroke color and width to something small
    Gear-inlay-tutorial-result-undersized.png
  8. remove raster image