![]() If you already set it into your filament temperature, you can keep "current" as the Start temp parameter. Here, you want to start at the highest temperature acceptable. In the temperature calibration, you got an interval of temperature where your print is "good enough". So you don't have to touch it unless you also want to optimise the temperature to prevent stringing. ![]() Start temp & Decrease temp stepīy default, it uses the current temp for only one test. Be careful, as a high retraction length will greatly increase the risk of a nozzle clog if you have many of them. You can also use a 0.2 mm increment and a higher height. If you have a Bowden extruder, it's best to try with a 0.5mm increment and ~ 15 mm height, as it's not uncommon to need more than 6mm of retraction. If you have a direct extruder, it's best to try with a 0.1mm increment and ~ 15 mm height, as it's not common to need more than a mm of retraction. This test will print a test piece with an increasing retraction length for each millimetre printed in the z axis. ![]() This calibration will help you to choose the right retraction length for your extruder and the current filament. It's preferable to have done the flow and temperature calibration. So let's have a look at the SuperSlicer retraction calibration test. (For a comprehensive read on Slicers: What is a 3D Slicer? - article link.-) Today I'm going to be running some retraction tests with SuperSlicer (github), which is a program that takes 3D models and converts the file into a code that 3D printers can print.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |