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- 11:25, 20 October 2024 Dankdryer improvements (hist | edit) [5,479 bytes] Dank (talk | contribs) (Created page with "In an earlier article, I designed and constructed a high-temperature filament dryer. Before I was even done putting together the first design, I was thinking of improvements for reliability, efficiency, cost, and ease of assembly. I've put some of them into effect, and the result is most pleasing. ==Models== Rather than mounting the RC522 directly onto the bottom of the top chamber, we print a short mount for it (building the mount into the h...")
- 20:43, 30 September 2024 Decay chart (hist | edit) [105 bytes] Dank (talk | contribs) (Created page with "[https://github.com/dankamongmen/isotopechart source]")
- 05:25, 29 September 2024 OpenSCAD (hist | edit) [2,868 bytes] Dank (talk | contribs) (Created page with "OpenSCAD is a declarative 3d modeling program. Objects are defined in terms of basic 2D and 3D shapes, and a set of operators is provided to manipulate these objects. It can generate STL files from the command line. ==Basic shapes== * Square (rectangle), circle, polygon * Cube (rectangular prism), sphere, cylinder, polyhedron <tt>circle</tt> and <tt>cylinder</tt> are approximated using the <tt>fn</tt> system variable. Low values of <tt>fn</tt> can be used to generate r...")
- 03:44, 29 September 2024 A case study in full-stack device development: the dankdryer (hist | edit) [36,682 bytes] Dank (talk | contribs) (Created page with "Engineering filaments like PA (nylon), PPS, PC, PEEK, and PPA tend to be fairly hygroscopic, meaning that they collect and retain moisture. It is said that PA filament can retain 10%+ of its weight in water. Wet filament can ruin a print two ways: hydrolysis reactions break up polymers, rendering filament brittle and negatively affecting its mechanical properties, and moisture can flash into steam in the hotend. Water is many times less dense in its gaseous form, and in...")
