Difference between revisions of "30M"
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== System Models == | == System Models == | ||
This is our enclosed benchtop model. | |||
* The System was introduced during our KickStarter campaign, and came with a 23" tall enclosure. | |||
* The System 30 was an improvement made while fulfilling our KickStarter obligations, and came with a larger (30" tall) enclosure. | |||
* The System 30M was introduced in 2013, and came with a change to all metric fasteners and custom extrusions, and a single (vs double) front door. | |||
* The System 30M v2 was introduced in 2021, and comes with better motors with closed-loop feedback and quieter operation. | |||
== Technical Data == | == Technical Data == | ||
Revision as of 16:57, 29 January 2021
System Models
This is our enclosed benchtop model.
- The System was introduced during our KickStarter campaign, and came with a 23" tall enclosure.
- The System 30 was an improvement made while fulfilling our KickStarter obligations, and came with a larger (30" tall) enclosure.
- The System 30M was introduced in 2013, and came with a change to all metric fasteners and custom extrusions, and a single (vs double) front door.
- The System 30M v2 was introduced in 2021, and comes with better motors with closed-loop feedback and quieter operation.
Technical Data
Temperature
- The HotBed can be heated to any temperature up to 85°C by default, and up to 110°C if reconfigured.
- The MK1-250 can be heated to 260°C (limited life); we recommend sustained use at 250°C or below. PLA, PET, ABS and Nylon work well at 225-230°C
- The EMO-25 prints at room temperature
- The VOL-25 can be heated to 100°C
For more details about each head, see the page for that head.
Resolution
Our positional resolution is better than five microns in the X and Y (.0002”, or 2/10 of a mil or .2 mils), and better than half a micron in the Z (.0002”, or 2/100 of a mil or .02 mils)
Accuracy
Our positional accuracy is +/- 50 microns in the X and Y over an 8” travel area And +/- 20 microns in the Z over an 8” travel area
Repeatability
Our positional repeatability is about 25 microns in the X and Y (.001”, or 1 mil) And about 10 microns in the Z (.0004”, or 4/10 of a mil or 0.4 mils)
Layer Height
We have successfully printed in ABS with a 25µm (.025mm) layer height, but this is very time consuming.
- We normally use a 200µm (.2mm) layer height with the .5mm nozzle on the MK-1 for 1.75mm filaments.
- We normally use a 500 µm (.5mm) layer height with the #14 (1.6mm) Luer Needle on the EMO-25 or SDS heads for pasty extrudables.
Print Speed
The best print speed manageable (without sacrificing quality) is variable, and depends not only on the material being used and layer height, but also on how much mass is being moved in the X and Y. With Repetrel v3.0 and above, we normally print at up to 50mm/sec or 3000mm/min; earlier versions should not exceed 30mm/sec or 1800mm/min, as this is what the accel/decel rates are tuned for.
Please note that clays and gels often perform better at slower speeds.
Build Volume
Systems have a build volume of just over 200 x 200 x 200 mm.
Form Factor
See chart above; dimensions include the top-loading (System-23) or side-loading (System-30) filament areas.
Adjustments
- Speed of travel (at slicing or in g-code editor)
- Layer thickness (at slicing)
- Volume of flow per unit distance (at slicing or in g-code editor)
- Extruder temperature (at slicing, in g-code editor, or manually during build) (MK-1, VOL-25)
- Cooling Fan speed (at slicing, in g-code editor, or manually during build (MK-1, QS-1)
- HotBed Temperature (at slicing, in g-code editor, or manually during build)
Or, is tabular better?
| Metric | Units | During Slicing | In G-Code Editor | GUI During Build |
|---|---|---|---|---|
| Speed of Travel | mm/min | yes | yes | no |
| Layer Thickness | mm | yes | no | no |
| Flow Rate | nL/sec | yes | yes | yes |
| Extruder Temperature | °C | yes | yes | yes |
| Fan Speed | % of max | yes | yes | yes |
| HotBed | °C | yes | yes | yes |