Tuning extrusion values
After building the acrylic Prusa i3 3D printer is when the challenge began. I tried to get proper values for the compact extruder using a PG35L geared stepper motor and that proved to be quite a challenge. The problem was two-fold: on one hand, this is a small low-power stepper, that thanks to a 1:35 gear reduction it can achieve 0.45Nm of torque, but this motor is rated at 12V/180mA, which make it not ideal for our 12V drive voltage. But the motor needs a bit more current to create a bit more torque to obtain a consistent extrusion. The second problem is that due to the gear the motor skips if speed is too high. So retraction speed has to be dialed down to 7-10 mm/sec.
Being the motor that slow is giving me more trouble, as retraction takes a while and I am getting some ugly plastic blobs in some corners.
This time my troubles were deepened because I am using a [for me] new hotend I bought from one of my students, who bought a couple of them off eBay and only needed one. I do not like this hotend as it is bulky and it needs to be bolted to the extruder, but it seems to work ok. Besides, it is difficult to get anything cheaper that $40 unless you do it yourself. I do not like it because it is PFTE-based, which is known to be the recipe for disaster sooner or later, as it does not have the required structural strength. I will keep my fingers crossed.
I have collected some configuration info I will like to share with you. While not yet printing perfectly, the results are ok till 70 mm/s. I guess this hotend-extruder combo won't go reliably any faster.
Being the motor that slow is giving me more trouble, as retraction takes a while and I am getting some ugly plastic blobs in some corners.
This time my troubles were deepened because I am using a [for me] new hotend I bought from one of my students, who bought a couple of them off eBay and only needed one. I do not like this hotend as it is bulky and it needs to be bolted to the extruder, but it seems to work ok. Besides, it is difficult to get anything cheaper that $40 unless you do it yourself. I do not like it because it is PFTE-based, which is known to be the recipe for disaster sooner or later, as it does not have the required structural strength. I will keep my fingers crossed.
I have collected some configuration info I will like to share with you. While not yet printing perfectly, the results are ok till 70 mm/s. I guess this hotend-extruder combo won't go reliably any faster.
- Max extruder feedrate 45 mm/sec
- Max extruder acceleration 5000 mm/sec^2
- Default extruder acceleration 1500 mm/sec^2
- Default retraction acceleration 1200 mm/sec^2
- Retraction speed 10 mm/sec
- Steps/mm: 825 (I am using MK7 gear drive).
- E jerk: 1 mm/sec
- Motor current 500mA (Pololu Vref=200mV)
What I like about this motor is that it is very light, but it gets pretty hot, so I have added an aluminium heatsink. I have bought another, beefier, geared motor, but I had some trouble with the compact extruder design file. While this other motor is stronger, it is also heavier and no additional cooling is required, but the 1:50 gear set will make it quite slow reaction too. Besides, some people had trouble with the gear box after a while (some teeth broke).
Meanwhile, the printer seems to be working nicely while I dial in the different parameters of the slicer to get quality prints.
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