![]() I have better results with lower flow rates (dia 0.4 or 1900%), but more testing needs to be done. Cetus3D is a subsidiary of Beijing Tiertime Technology LTD.As a truly essential system, the body of Cetus3D is made of aluminum extrusions,the XYZ axis all using stainless steel liner rail,and the machine is simplified into only six modules. Filament diameters of around 0.38 translate to the 2200% cmeyer posted (flow rate factors in quadratic, so use fine steps when adjusting it). The Cetus3D 3D printer is an affordable 3D printer made by Cetus3D, a manufacturer based in China. Flow rate percentage adjustments mess up the ‘layer view’ in Cura (from years of experience with an Ultimaker 2, I find this one of the most helpful features in Cura). Keep in mind that you may have to find a physical solution for levelling the build bed when using Cura.ĭ) With the current version of Cura (v3.3.1) it is better to adjust the flow rate of molten filament via the filament diameter, than the flow rate percentage. The nozzle is too far away from the bed, if the individual lines can be easily separated and do not stick together.)Ĭ) Up Studio allows for an 9-point calibration routine for the z-axis. However drivers and motors are the same, but I think Cetus make a little more noise with its rails. The nozzle is too close to the bed, if the brim thickness (z-direction) gets to thin and translucent. Virtually silent after, don’t have calibrated dB measurement, nor do I have Cetus, but Up Mini. ![]() If you use a brim around a test-model in Cura, the correct height is achieved, if the individual lines that make up the brim squash together nicely. (I think a painfully precise calibration is overkill. I did compile my ‘own version’ from the start code by chrisevich. Perhaps the info below will help someone in the future:Ī) I used the start and end code from chrisevich ( #11) which worked nicely for me.ī) the z-axis calibration code posted by cmeyer never worked for me. I just wanted to thank everyone who contributed to this thread - it helped me tremendously when setting up my Cetus3D MkII with Cura. The CAD models for all the Omron parts were supplied by Omron on their website. It just fits the power supply, temperature controller and the MOSFET board. G1 X50 E360 F300 extrude a 5cm purge line Naturally, I wanted to print the enclosure on the Cetus and so I put something together in F360 which can be found here. G1 X2 Y178 F5000 move to back right corner ![]() M206 X-180 offset X axis so the coordinates are 0.180, normally they are -180.0 ![]() Do the paper test and use a gcode file something like this:p.p1 the nozzle offset may be different than in Cetus Studio. make sure your nozzle offset is correct in the starting g-code ![]()
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