To tackle this I created a tall test part with graduated small cylindrical holes to monitor bleed at different heights (see below). I tilted this at about 15 degrees from vertical and ran some test prints:
Decreasing exposure during a print: To do this I extended the bottom layers from 4 to 180 layers (about 6mm). Bottom exposure was lowered to just enable printing the littlerp peg calibration file across the build platform (about 3s). The exposure time was reduced by about 15% (~2.5s) for the rest of the print. This helped but needs more effective tapering of exposure.
Increasing retraction speed: Surface bleed increased rapidly at about the level where the build platform is above the resin. To improve resin mixing I tried increasing the retraction speed from 70mm/m to 140mm /m, 200mm/m and 300mm/m. Lift was increased from 3 to 5mm. Settling time was 2s. 140mm/m reduced the surface bleed by about %50 and the higher rates 200 - 300 mm/m almost eliminated the bleed increase leaving clear build lines on both sides of the test print.
Together these prevented most of the increase in bleed and we have not had any pdms adhesion print failures over the last ~30h print jobs (~5-30mm tall) on the same petri dish.Statistics: Posted by cew — Sat May 14, 2016 4:07 am
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