Type A: Difference between revisions
m (→Status: typo fix again) |
(Retired Printer) |
||
(22 intermediate revisions by one other user not shown) | |||
Line 8: | Line 8: | ||
* '''Operational''' ... use PETG head '''only''' for PETG, and the PLA head '''only''' for PLA. | * '''Operational''' ... use PETG head '''only''' for PETG, and the PLA head '''only''' for PLA. | ||
** PETG printhead in printer -- loaded with 1.75mm Blue iPrint-3D PETG. | ** PETG printhead in printer -- loaded with 1.75mm Blue iPrint-3D PETG. | ||
* The Buld Plate is no longer perfectly flat. (Small high area, centered on X-axis & bit behind Y-axis center.) | |||
* The Printhead Heatsink Fan is '''always on''' ... so don't leave this printer powered on for long periods of time without printing. | * The Printhead Heatsink Fan is '''always on''' ... so don't leave this printer powered on for long periods of time without printing. | ||
* [[3D_Printers#Cura_15|Cura 15 Settings here]] (see Cura 3 Settings section instead.) | * [[3D_Printers#Cura_15|Cura 15 Settings here]] (see Cura 3 Settings section instead.) | ||
Line 59: | Line 60: | ||
'''CURA 3 settings for PETG by iPrint3D | '''CURA 3.4.1 settings for PETG by iPrint3D''' | ||
'''PLEASE NOTE:''' These settings are | '''PLEASE NOTE:''' These settings are a work in progress ... additional settings will be added as how to use those settings is worked out. | ||
'''Quality''' | '''Quality''' | ||
* | * Layer Height: 0.225 mm (Using "Adaptive Layers", so this really means from 0.175mm to 0.275mm)<br />==> Using a Layer Height more than 2.75mm or less than 1.75mm seems to cause a LOT more PETG build-up on the outside of the nozzle. | ||
* Initial Layer Height: 0.3 mm | |||
* Line Width: 0.35 mm ('''smaller''' than the 0.4mm nozzle) | |||
'''Shell''' | '''Shell''' | ||
* Wall Thickness: | * Wall Thickness: 0 mm (using Wall Line Count instead) | ||
* Top/Bottom Thickness: 1.2 mm ( | ** Wall Line Count: 3 (3 perimeters seem to work a bit better than 2) | ||
* Top/Bottom Pattern: Zig Zag | * Top/Bottom Thickness: 1.2 mm (Requires more than for PLA.) | ||
* Optimize Wall Printing Order: | * Top/Bottom Pattern: Zig Zag (To help minimize retractions.) | ||
* Bottom Pattern Initial Layer: Concentric (To get a better bottom surface.) | |||
* Optimize Wall Printing Order: UNSELECTED | |||
* Alternate Extra Wall: SELECTED | * Alternate Extra Wall: SELECTED | ||
* Compensate Wall Overlaps: SELECTED | |||
* Fill Gaps Between Walls: Everywhere | * Fill Gaps Between Walls: Everywhere | ||
* Filter Out Tiny Gaps: SELECTED | * Filter Out Tiny Gaps: SELECTED | ||
* Z Seam Alignment: Shortest | * Print Thin Walls: SELECTED | ||
* Seam Corner Preference: | * Z Seam Alignment: Shortest (Change this as needed.) | ||
* Seam Corner Preference: None (Change this as needed.) | |||
* Extra Skin Wall Count: 1 | |||
'''Infill''' | '''Infill''' | ||
* Infill Density: 100% or less, as appropriate<br />==> 100% often used, as PETG is more flexible than PLA<br />==> 25% often used when just want infill to print on top of | * Infill Density: 100% or less, as appropriate<br />==> 100% often used, as PETG is more flexible than PLA. (100% also permits MAXIMUM layer bonding.)<br />==> 25% often used when just want infill to print on top of. (PETG needs a little bit more infill to print over than PLA.) | ||
* Infill Pattern: Zig Zag | * Infill Pattern: Zig Zag (To help minimize retractions.) | ||
* Infill Overlap Percentage: | * Infill Overlap Percentage: 0 (Using Line Width < Nozzle Width instead.) | ||
* Skin Overlap Percentage: | * Skin Overlap Percentage: 0 (Using Line Width < Nozzle Width instead.) | ||
* Minimum Infill Area: 2 mm² | * Infill Wipe Distance: 0 (Using Line Width < Nozzle Width instead.) | ||
* Infill Before Walls: UNSELECTED (Select this only when needed.) | |||
* Minimum Infill Area: 2 mm² (Can set to 0 -- to not use this setting -- if that seems needed.) | |||
'''Material''' | '''Material''' | ||
* Printing Temperature: | * Printing Temperature: 235 °C (This should be set by the '''Material''' settings.) | ||
* Printing Temperature Intitial Layer: 235 °C | |||
* Build Plate Temperature: 0 °C | * Build Plate Temperature: 0 °C | ||
* Diameter: 1.75 mm<br />==> if possible, use the actual measured filament dia. | * Diameter: 1.75 mm (This should be set by the '''Material''' settings.)<br />==> if possible, use the actual measured filament dia. -- Otherwise 1.7mm seems a good "best guess" for iPrint-3D PETG. | ||
* Flow: | * Flow: 94 % (I would '''not''' want to use anything less than this.) | ||
* Retraction Distance: 0.5 mm | * Initial Layer Flow: 96 % (To get better buildplate adhesion.) | ||
* Retraction Distance: 0.5 mm (Retraction & Coasting work together.) | |||
* Retraction Speed: 25 mm/s | * Retraction Speed: 25 mm/s | ||
** Retraction Retract Speed: 20 mm/s | ** Retraction Retract Speed: 20 mm/s | ||
** Retraction Prime Speed: 25 mm/s | ** Retraction Prime Speed: 25 mm/s | ||
* Retraction Extra Prime Amount: -0. | * Retraction Extra Prime Amount: -0.0005 mm³ (That is a '''negative''' value.) | ||
* Retraction Minimum Travel: 1.2 mm ( | * Retraction Minimum Travel: 1.2 mm (3 Nozzle Width, less than 4 Line Width) | ||
* | * Maximum Retraction Count: 30 (# is usually for the above Retraction Distance.) | ||
* Limit Support Retractions: UNSELECTED | |||
* | |||
'''Speed''' | '''Speed''' | ||
* Print Speed: 25 mm/s | * Print Speed: 25 mm/s | ||
** Infill Speed: 25 mm/s<br />==> Can try | ** Infill Speed: 25 mm/s<br />==> Can try 30 to 35 mm/s for prints with larger areas of infill.<br /> | ||
** Wall Speed | ** Wall Speed 25 mm/s (Should not actually matter, since really using the Outer Wall & Inner Wall settings.) | ||
*** Outer Wall Speed: 20 mm/s | *** Outer Wall Speed: 20 mm/s | ||
*** Inner Wall Speed: 25 mm/s | *** Inner Wall Speed: 25 mm/s | ||
** Top/Bottom Speed: 20 mm/s | |||
** Support Speed: 25 mm/s | ** Support Speed: 25 mm/s | ||
* Travel Speed | * Travel Speed 200 mm/s (The '''maximum travel speed''' for this printer.)<br />==> Using travel speeds above 200mm/s was contributing to occational X/Y axis layer shifts -- which took months to resolve. | ||
* Initial Layer Speed: 20 mm/s | * Initial Layer Speed: 20 mm/s | ||
* Enable Acceleration Control: SELECTED | * Enable Acceleration Control: SELECTED | ||
Line 114: | Line 123: | ||
'''Travel''' | '''Travel''' | ||
* Combing Mode: All<br />==> This sometimes provides *much* faster print times.<br />==> Set to “No Skin” or “Off” only if surface movement lines are a problem. | * Combing Mode: All<br />==> This sometimes provides *much* faster print times.<br />==> Set to “No Skin” or “Off” only if surface movement lines are a problem. | ||
* Max Comb Distance With No Retract: 2.0 mm (Set to some reasonable value. New in Cura 3.4) | |||
* Retract Before Outer Wall: UNSELECTED | |||
* Avoid Printed Parts When Traveling: SELECTED | |||
* Avoid Supports When Traveling: SELECTED | |||
* Z Hop When Retracted: SELECTED | * Z Hop When Retracted: SELECTED | ||
* Z Hop Only Over Printed Parts: UNSELECTED | |||
* Z Hop Height: 0.5 mm | * Z Hop Height: 0.5 mm | ||
'''Cooling''' | '''Cooling''' | ||
* Enable Print Cooling: UNSELECTED | * Enable Print Cooling: UNSELECTED (DON'T use Filament Cooling with PETG!) | ||
* Minimum Layer Time: 10 s | * Minimum Layer Time: 10 s | ||
'''Support''' | |||
* Generate Support: SELECTED (Unselect this when not needed.) | |||
* Support Placement: Everywhere (Use "Touching Build Plate" when appropriate.) | |||
* Support Overhang Angle: 50 ° | |||
* Support Pattern: Lines (Least difficult to remove support type for PETG.) | |||
* Support Wall Line Count: 1 (This makes supports print '''much''' better.) | |||
* Support Density: 20% (Needs more than PLA.) | |||
* Support Join Distance: 2.5 mm (Adjust as appropriate.) | |||
* Support Horizontal Expansion: 0.2 mm | |||
* Gradual Support Infill Steps: 0 (Using this is not tested yet.) | |||
'''Build Plate Adhesion''' | '''Build Plate Adhesion''' | ||
* Build Plate Adhesion Type: Brim | * Build Plate Adhesion Type: Brim | ||
* Brim Width: 10 mm | * Brim Width: 10 mm | ||
* Brim Only on Outside: SELECTED (Select or Unselect as appropriate.) | |||
'''Special Modes''' | '''Special Modes''' | ||
* Print Sequence: | * Print Sequence: All At Once (This setting seems needed to make other things work.) | ||
'''Experimental''' | '''Experimental''' | ||
* Enable Costing: SELECTED | * Maximum Resolution: 0.01 mm | ||
* Enable Costing: SELECTED<br />==> Costing together with a small retraction seems to works better than using just retractions.<br /> | |||
* Costing Volume: 0.1 mm<sup>3</sup> (aprox. 150% the Cura 3 default value) | |||
* Minimum Volume Before Coasting: 0.8 mm<sup>3</sup> | |||
* Coasting Speed: 100 % | |||
* Alternate Skin Rotation: SELECTED (UNSELECT this when using Supports.) | |||
* Use Adaptive Layers: SELECTED | |||
* Adaptive Layers Maximum Variation: 0.05 mm | |||
* Adaptive Layers Variation Step Size: 0.01 mm | |||
* Adaptive Layers Threshold: 180 (Default value is 200)<br />==> 180 seems to provide about same quality & speed as using a 0.1mm layer height with PLA on Ultimaker 1. | |||
<br /> | <br /> | ||
NOTES: | NOTES: | ||
* For best results printing PETG, '''do not use the Filament Fan'''. (Print with the Hotend Heatsink Fan '''only'''.) When the Filament Fan is used, expect layer separation problems. When printed without using a Filament Fan, PETG has '''exceptional''' layer bonding. | * For best results printing PETG, '''do not use the Filament Fan'''. (Print with the Hotend Heatsink Fan '''only'''.) When the Filament Fan is used, expect layer separation problems. When printed without using a Filament Fan, PETG has '''exceptional''' layer bonding. | ||
* As a filament type, PETG is terrible at things like bridging. This includes you might need just a bit more top surface over infill to get a smooth outer layer. | * As a filament type, PETG is terrible at things like steep overhangs and bridging. This includes you might need just a bit more top surface over infill to get a smooth outer layer. (Or just use a slightly higher infill %.) | ||
* | * That PETG likes to to buildup on the '''outside''' of the print nozzle is a major problem with this filament type. This has a lot to so with how all PETG is "stringy". (Some makes/brands are worse than others.) So as the hot nozzle moves through any spiderweb thin strands between printed parts, PETG filament builds up on the nozzle. (And eventually may drop onto the print, as a possibly print ruining blob of plastic.) For that reason, any print that could be described as a "highly shaped bock of plastic" should work well. But prints where the head constantly moves over open air -- with no plastic under the nozzle & creating many strands -- are more likely to fail. | ||
* These settings use a 0.35mm line width out of a 0.4mm nozzle, '''instead''' of all the other overlaps which would also contribute to PETG trying to build up on the outside of the nozzle. | |||
==Cura 3 Settings for this Printer== | ==Cura 3 Settings for this Printer== | ||
In Cura 3. | In Cura 3.4.1, to use the below settings, create a '''Custom FDM printer''', then edit the '''Machine Settings''' for that printer to contain the following:<br /> | ||
... '''PRINTER TAB'''<br /> | ... '''PRINTER TAB'''<br /> | ||
'''Printer Settings''' | '''Printer Settings''' | ||
Line 185: | Line 215: | ||
</code> | </code> | ||
... '''EXTRUDER 1 TAB'''<br /> | ... '''EXTRUDER 1 TAB'''<br /> | ||
* Nozzle size: 0.4 mm | * Nozzle size: 0.4 mm | ||
* Compatible Material diameter: 1.75 mm | |||
==Machine Log== | ==Machine Log== | ||
Line 194: | Line 224: | ||
!Notes | !Notes | ||
!Entry By | !Entry By | ||
|- | |||
| June 28, 2020 | |||
| | |||
* This Machine has been retired, it was taken home during the HL2 => HL3 by a member. This was with the consent of the hacklab membership. | |||
| Revident | |||
|- | |||
|November 14, 2018 | |||
| | |||
* Had repeated/ongoing LAYER SHIFT problems with a large "lot of movements" print. | |||
** Snugged the screws to hold the plate on, as it was moving. | |||
** Tightened the printhead gantry screws. Several have nuts pulling through, so '''need to glue that part of the printer'''. | |||
** Retention both belts, by adding a printed piece onto each belt. | |||
** Still getting some Layer Shifts, so will have to try 120mm/s travel speed next. (Instead of 200mm/s) | |||
* Discovered the Print Bed Plate is no longer flat. (Small high area, centered on X-axis & bit behind Y-axis.) | |||
|Allen | |||
|- | |- | ||
Line 207: | Line 255: | ||
|September 19, 2018 | |September 19, 2018 | ||
| | | | ||
* The PETG | * The PETG p4rinthead DIED. | ||
** broken wires due to wires flexing right at the Heater connector. | ** broken wires due to wires flexing right at the Heater connector. | ||
** Also, again getting erratic flow or PETG out of the printhead. | ** Also, again getting erratic flow or PETG out of the printhead. | ||
Line 535: | Line 583: | ||
==Parts and Supplies Wish List== | ==Parts and Supplies Wish List== | ||
* Connector Parts needed to finish other 2 Printheads -- and also to try different filament cooling fans. | |||
** 3 pieces of: https://www.digikey.ca/products/en?keywords=Wm1845-ND (Have 2 of these.) | |||
** 20 pieces of: https://www.digikey.ca/products/en?keywords=Wm1837CT-ND (Have 4 of these.) | |||
** 8 pieces of: https://www.digikey.ca/products/en?keywords=Wm1855-ND (Have 2 of these. Also for cooling fan.) | |||
** 50 pieces of: https://www.digikey.ca/products/en?keywords=Wm1841CT-ND (Have NONE of these. Also for cooling fan.) | |||
PLEASE NOTE: These connectors are '''extremely difficult''' to crimp in a manner they work. So at least '''double''' the crimp-connector parts are needed to get solid/working connectors. | |||
*www.aliexpress.com/item/A-Funssor-Silicone-Socks-for-v6-hotend-SILICONE-HEATER-BLOCK-COVER-Heater-Block-Silicone-Insulation-Blue/32823079702.html | *www.aliexpress.com/item/A-Funssor-Silicone-Socks-for-v6-hotend-SILICONE-HEATER-BLOCK-COVER-Heater-Block-Silicone-Insulation-Blue/32823079702.html |
Latest revision as of 02:42, 1 July 2020
This page documents the Type A Series 1 (2013 plywood model).
Type A lives on the third shelf of the 3D printer tower, next to Ultimaker 2
Status
- Operational ... use PETG head only for PETG, and the PLA head only for PLA.
- PETG printhead in printer -- loaded with 1.75mm Blue iPrint-3D PETG.
- The Buld Plate is no longer perfectly flat. (Small high area, centered on X-axis & bit behind Y-axis center.)
- The Printhead Heatsink Fan is always on ... so don't leave this printer powered on for long periods of time without printing.
- Cura 15 Settings here (see Cura 3 Settings section instead.)
- http://octopi3.hacklab.to/
Features
- Type A Series 1 (2013 plywood model).
- 254 x 230 x 230 mm print volume
- 1.75mm filament
- .4mm nozzle
- As the head uses a Teflon insert, do NOT run at more than 240°C (250°C absolute maximum temp.???)
- It is managed and accessible from the web GUI: http://octopi3.hacklab.to/
- Its manual is at http://bit.ly/1NDToMT (our Head Assembly is different.)
Known Issues and Fixes
- DO NOT do an "Atomic Pull" or "Cold Pull" on this 3D Printer!!! Doing that will break the heatbreak (at the nozzle end).
- Before starting to print, make sure the head heatsink fan is ON. If the connector on the cable came loose, then the filament will jam once that heatsink becomes too hot.
- This Printer has a removable printbed. So before printing, make sure that all 4 screwheads are forward to properly secure the printbed.
- NOTE: the current printbed has poorly cut "key" slots for the 4 bed screws ... so it takes a bit of patience to remove and re-install it, without trying to force it off or on while doing so.
IMPORTANT: All PETG filaments are not the same. This printer can only use PETG filaments where the maximum recommended printing temperature is 240°C. (MG Chemicals, iPrint-3D, Spool3D.ca & Cyclone Filament are some sources for that.) Most PETG filaments have a maximum recommended temperature of 260°C to 265°C.
Recommended Filament Settings
CURA 3 settings for PLA by Filaments.ca
NOTE: The below settings for PLA are very aggresive -- for all those who can't wait for looong prints to finish. e.g. 75mm/s is the fastest usable speed. If things like print finish and not having small holes/voids in the infill matters, then this might need to be reduced to 50mm/s. Or for printing small minatures, slowing the print speed down to something like 25mm/s might be necessary. Also, slowing the travel speed down to 120mm/s -- instead of 150mm/s -- might help. While things like retraction settings could benefit from further test prints -- to try to find the "best" setting, instead of just a setting that is "close enough to work".
Quality
- Layer Height: use anything from 0.1mm to 0.3mm
Material
- Printing Temperature: 190 °C
- Diameter: 1.75 mm
- Flow: 100 %
- Retraction Distance: 0.65 mm
- Retraction Speed: 40 mm/s
Speed
- Print Speed: 75 mm/s (the other print speeds are calculated from this value)
- Travel Speed 150 mm/s
- Initial Layer Speed: 25 mm/s
- Enable Acceleration Control: SELECTED
- Print Acceleration: 2000 mm/s (2/3 of the default value)
- Travel Acceleration: 3000 mm/s (60% of the default value)
- Enable Jerk Control: SELECTED
- Print Jerk: 20 mm/s (the default value)
- Travel Jerk: 20 mm/s (set to same as Print Jerk)
Experimental
- Enable Costing: SELECTED (default values used for Coasting)
NOTE: The legacy Cura 15.04.06 settings for PLA can be found in this .ini file:
https://github.com/W1N9Zr0/Ultimaker_Cura_Profile/blob/master/hacklab_typa_profile.ini
CURA 3.4.1 settings for PETG by iPrint3D
PLEASE NOTE: These settings are a work in progress ... additional settings will be added as how to use those settings is worked out.
Quality
- Layer Height: 0.225 mm (Using "Adaptive Layers", so this really means from 0.175mm to 0.275mm)
==> Using a Layer Height more than 2.75mm or less than 1.75mm seems to cause a LOT more PETG build-up on the outside of the nozzle. - Initial Layer Height: 0.3 mm
- Line Width: 0.35 mm (smaller than the 0.4mm nozzle)
Shell
- Wall Thickness: 0 mm (using Wall Line Count instead)
- Wall Line Count: 3 (3 perimeters seem to work a bit better than 2)
- Top/Bottom Thickness: 1.2 mm (Requires more than for PLA.)
- Top/Bottom Pattern: Zig Zag (To help minimize retractions.)
- Bottom Pattern Initial Layer: Concentric (To get a better bottom surface.)
- Optimize Wall Printing Order: UNSELECTED
- Alternate Extra Wall: SELECTED
- Compensate Wall Overlaps: SELECTED
- Fill Gaps Between Walls: Everywhere
- Filter Out Tiny Gaps: SELECTED
- Print Thin Walls: SELECTED
- Z Seam Alignment: Shortest (Change this as needed.)
- Seam Corner Preference: None (Change this as needed.)
- Extra Skin Wall Count: 1
Infill
- Infill Density: 100% or less, as appropriate
==> 100% often used, as PETG is more flexible than PLA. (100% also permits MAXIMUM layer bonding.)
==> 25% often used when just want infill to print on top of. (PETG needs a little bit more infill to print over than PLA.) - Infill Pattern: Zig Zag (To help minimize retractions.)
- Infill Overlap Percentage: 0 (Using Line Width < Nozzle Width instead.)
- Skin Overlap Percentage: 0 (Using Line Width < Nozzle Width instead.)
- Infill Wipe Distance: 0 (Using Line Width < Nozzle Width instead.)
- Infill Before Walls: UNSELECTED (Select this only when needed.)
- Minimum Infill Area: 2 mm² (Can set to 0 -- to not use this setting -- if that seems needed.)
Material
- Printing Temperature: 235 °C (This should be set by the Material settings.)
- Printing Temperature Intitial Layer: 235 °C
- Build Plate Temperature: 0 °C
- Diameter: 1.75 mm (This should be set by the Material settings.)
==> if possible, use the actual measured filament dia. -- Otherwise 1.7mm seems a good "best guess" for iPrint-3D PETG. - Flow: 94 % (I would not want to use anything less than this.)
- Initial Layer Flow: 96 % (To get better buildplate adhesion.)
- Retraction Distance: 0.5 mm (Retraction & Coasting work together.)
- Retraction Speed: 25 mm/s
- Retraction Retract Speed: 20 mm/s
- Retraction Prime Speed: 25 mm/s
- Retraction Extra Prime Amount: -0.0005 mm³ (That is a negative value.)
- Retraction Minimum Travel: 1.2 mm (3 Nozzle Width, less than 4 Line Width)
- Maximum Retraction Count: 30 (# is usually for the above Retraction Distance.)
- Limit Support Retractions: UNSELECTED
Speed
- Print Speed: 25 mm/s
- Infill Speed: 25 mm/s
==> Can try 30 to 35 mm/s for prints with larger areas of infill. - Wall Speed 25 mm/s (Should not actually matter, since really using the Outer Wall & Inner Wall settings.)
- Outer Wall Speed: 20 mm/s
- Inner Wall Speed: 25 mm/s
- Top/Bottom Speed: 20 mm/s
- Support Speed: 25 mm/s
- Infill Speed: 25 mm/s
- Travel Speed 200 mm/s (The maximum travel speed for this printer.)
==> Using travel speeds above 200mm/s was contributing to occational X/Y axis layer shifts -- which took months to resolve. - Initial Layer Speed: 20 mm/s
- Enable Acceleration Control: SELECTED
- Print Acceleration: 2000 mm/s (2/3 of the default value)
- Travel Acceleration: 3000 mm/s (60% of the default value)
- Enable Jerk Control: UNSELECTED
==> Limiting sudden movement changes permits PETG to build up on outside of head.
Travel
- Combing Mode: All
==> This sometimes provides *much* faster print times.
==> Set to “No Skin” or “Off” only if surface movement lines are a problem. - Max Comb Distance With No Retract: 2.0 mm (Set to some reasonable value. New in Cura 3.4)
- Retract Before Outer Wall: UNSELECTED
- Avoid Printed Parts When Traveling: SELECTED
- Avoid Supports When Traveling: SELECTED
- Z Hop When Retracted: SELECTED
- Z Hop Only Over Printed Parts: UNSELECTED
- Z Hop Height: 0.5 mm
Cooling
- Enable Print Cooling: UNSELECTED (DON'T use Filament Cooling with PETG!)
- Minimum Layer Time: 10 s
Support
- Generate Support: SELECTED (Unselect this when not needed.)
- Support Placement: Everywhere (Use "Touching Build Plate" when appropriate.)
- Support Overhang Angle: 50 °
- Support Pattern: Lines (Least difficult to remove support type for PETG.)
- Support Wall Line Count: 1 (This makes supports print much better.)
- Support Density: 20% (Needs more than PLA.)
- Support Join Distance: 2.5 mm (Adjust as appropriate.)
- Support Horizontal Expansion: 0.2 mm
- Gradual Support Infill Steps: 0 (Using this is not tested yet.)
Build Plate Adhesion
- Build Plate Adhesion Type: Brim
- Brim Width: 10 mm
- Brim Only on Outside: SELECTED (Select or Unselect as appropriate.)
Special Modes
- Print Sequence: All At Once (This setting seems needed to make other things work.)
Experimental
- Maximum Resolution: 0.01 mm
- Enable Costing: SELECTED
==> Costing together with a small retraction seems to works better than using just retractions. - Costing Volume: 0.1 mm3 (aprox. 150% the Cura 3 default value)
- Minimum Volume Before Coasting: 0.8 mm3
- Coasting Speed: 100 %
- Alternate Skin Rotation: SELECTED (UNSELECT this when using Supports.)
- Use Adaptive Layers: SELECTED
- Adaptive Layers Maximum Variation: 0.05 mm
- Adaptive Layers Variation Step Size: 0.01 mm
- Adaptive Layers Threshold: 180 (Default value is 200)
==> 180 seems to provide about same quality & speed as using a 0.1mm layer height with PLA on Ultimaker 1.
NOTES:
- For best results printing PETG, do not use the Filament Fan. (Print with the Hotend Heatsink Fan only.) When the Filament Fan is used, expect layer separation problems. When printed without using a Filament Fan, PETG has exceptional layer bonding.
- As a filament type, PETG is terrible at things like steep overhangs and bridging. This includes you might need just a bit more top surface over infill to get a smooth outer layer. (Or just use a slightly higher infill %.)
- That PETG likes to to buildup on the outside of the print nozzle is a major problem with this filament type. This has a lot to so with how all PETG is "stringy". (Some makes/brands are worse than others.) So as the hot nozzle moves through any spiderweb thin strands between printed parts, PETG filament builds up on the nozzle. (And eventually may drop onto the print, as a possibly print ruining blob of plastic.) For that reason, any print that could be described as a "highly shaped bock of plastic" should work well. But prints where the head constantly moves over open air -- with no plastic under the nozzle & creating many strands -- are more likely to fail.
- These settings use a 0.35mm line width out of a 0.4mm nozzle, instead of all the other overlaps which would also contribute to PETG trying to build up on the outside of the nozzle.
Cura 3 Settings for this Printer
In Cura 3.4.1, to use the below settings, create a Custom FDM printer, then edit the Machine Settings for that printer to contain the following:
... PRINTER TAB
Printer Settings
- X (Width): 254 mm
- Y (Depth): 230 mm
- Z (Height): 230 mm
- Build plate shape: Rectangular
- Origin at center: UNSELECTED
- Heated bed: UNSELECTED
- Gcode Flavor: Marlin
Printhead Settings
- X min: 30 mm
- Y min: 30 mm
- X max: 55 mm
- Y max: 60 mm
- Gantry height: 110.0 mm
- Number of Extruders: 1
Start Gcode
;Sliced at: {day} {date} {time}
G21 ;metric values
G90 ;absolute positioning
M82 ;set extruder to absolute mode
M107 ;start with the fan off
G28 X0 Y0 ;move X/Y to min endstops
G28 Z0 ;move Z to min endstops
G1 Z15.0 F{travel_speed} ;move the platform down 15mm
G92 E0 ;zero the extruded length
G1 F200 E3 ;extrude 3mm of feed stock
G92 E0 ;zero the extruded length again
G1 F{travel_speed}
M117 Printing...
End Gcode
;End GCode
M104 S0 ;extruder heater off
M140 S0 ;heated bed heater off (if you have it)
G91 ;relative positioning
G1 E-1 F300 ;retract the filament a bit before lifting the nozzle, to release some of the pressure
G1 Z+0.5 E-5 X-20 Y-20 F{travel_speed} ;move Z up a bit and retract filament even more
G28 X0 Y0 ;move X/Y to min endstops, so the head is out of the way
M84 ;steppers off
G90 ;absolute positioning
... EXTRUDER 1 TAB
- Nozzle size: 0.4 mm
- Compatible Material diameter: 1.75 mm
Machine Log
Date | Notes | Entry By |
---|---|---|
June 28, 2020 |
|
Revident |
November 14, 2018 |
|
Allen |
September 20, 2018 |
|
Allen |
September 19, 2018 |
NOTE: This is now the "last functioning" printhead for the Type A. (Until get more connector crimp contacts, to remake another head).
|
Allen |
September 4, 2018 |
|
Allen |
August 29, 2018 |
|
Allen |
June 2018 (rest of) |
|
Allen |
June 19, 2018 |
|
Allen |
June 13, 2018 |
|
Allen |
March 15, 2018 | After printing over 20 hours of work, there are NO x-axis or y-axis shifts to all those prints, so this printer finally seems fixed. | Allen |
February 28, 2018 |
|
Allen |
February 27, 2018 |
|
Allen |
February 14, 2018 |
|
Allen |
February 13, 2018 |
|
Allen |
February 08, 2018 |
// AluHotend E3Dv6 #define DEFAULT_Kp 8.66 #define DEFAULT_Ki 1.02 #define DEFAULT_Kd 48.80
|
Allen |
December 14, 2017 |
|
Allen |
December 13, 2017 |
|
Allen |
December 07, 2017 |
|
Allen |
November 08, 2017 |
|
Allen |
November 07, 2017 |
|
Allen |
November 02, 2017 |
|
Allen |
October 12, 2017 |
|
Allen |
August 30, 2017 |
|
Allen |
August 29, 2017 |
|
Allen |
August 21, 2017 |
|
Allen |
August 10, 2017 |
|
Allen |
July 13, 2017 | Have a 2nd AluHotend/E3Dv6 hot end for this printer. So multiple easy to change print heads (1 per filament type?) are now possible. | Allen |
July 4, 2017 |
|
Allen |
June 22, 2017 | While trying to fit Hotend Heatsink Cooling Fan, the Nichrome wire broke off right where it goes into the circular ceramic. Now must rebuild using a E3D v6 Head. (As purchased, on the AluHotend heatbreak.) Per instructions on the Internet, that will require changed/custom firmware. | Allen |
June 17, 2017 |
|
Allen |
June 13-14, 2017 |
|
Allen |
May 24, 2017 | 1st attempt to replace Grovemount & Heatbreak ended with a broken part. The needed parts are on order. (Aprox. 30 days from China.) Everything was installed and working briefly before the cracked heatbreak broke. Trying to use the installed Heatsink & Thermal Compound on the Metal Extruder block, instead of a fan on the small metal Grovemount fins. (This rebuild will be simpler if a 2nd fan is not needed.) | Allen |
April 28, 2017 | Un-Jammed the filament in the print-head. (Jammed in the black quickmount part?) Can push the filament through by hand. (Almost breaking filament using that much force.) But will *not* extrude properly. So something is not moving freely in the quickmount head assembly. | Allen |
March 28, 2017 | Tried to print, but machine is under-extruding like crazy. The first layer did not lay down, the filament came out like small blobs instead of a constant stream, even at 115% flowrate. I will order a new brass head and teflon tube from china. | ran0 |
February 18, 2017 | as per @Myles: OctoPi3 is working if you need to use a 3D printer. | MikeP |
January 2017 | Attempted cleaning nozzle, printer still under-extruding | ran0 |
January 28 2016 | The X (and to a lesser degree the Y) axis are skipping and it ends up offset. Tightened the belts. All good. | alaina |
January 1 2016 | Print head not extruding. Mechanics and octopi commands seem to be working fine, but filament does not extrude from print head. Also, the Z axis is off a little, and home is slightly too close to the print head. Easily adjusted by hand. | emmy (saskeah) |
January 2 2016 | On Igor's advice, I tried pushing through some filament (with the hot end at 185C), and it came through just fine. The pinch wheel needs to be cleaned before using, using the compressed air and little metal brushes by the soldering station. On my to do list (hopefully before end of Tuesday) is to clean out the print head using Igor's "cold push" method, clean the pinch wheel, adjust the Z axis, and re-tape the bed, then print a calibration object to make sure all is good. Also, if anyone else does all of this and wants to print - just a note that the 1.75 inch filament is *super* brittle, so be careful! | emmy (saskeah) |
January 2 2016 | Cold push clean out of extruder head done, extruder doesn't seem to be blocked. Next step is to clean out the pinch wheel, which is on my to-do before Tuesday, unless someone else feels like taking that on. | emmy (saskeah) |
January 3 2016 | Pinch wheel cleaned with compressed air. Bed re-taped and cleaned with isopropyl alcohol. Cold push clean of extruder head repeated for good measure (and during a sticky moment unicycledave took the head apart and removed some extra gunk). Z axis adjusted. Attempted a calibration object, z axis held bed too far from the print head. Attempted again with adjustment, print head was too close and scraped the tape. Good news: printer totally functional. Bad news: Z axis still needs tweaking, and part of the bed needs to be re-taped again. | emmy (saskeah) |
January 4 2016 | Bed re-taped, z axis double-checked. Type A gets my stamp of approval - good to go! | emmy (saskeah) |
January 10 2016 | Did a test print that came out perfectly calibrated, but with some relatively minor gaps in extrusion. | emmy (saskeah) |
January 17 2016 | Tried another test print that came out with more pronounced gaps in extrusion. Tried a calibration cube at 220 C, and it came out well. Downloaded the new version of Cura and used the default presets to print another test cube. The presets are fairly different from the previous version, and the test print came out perfectly. | emmy (saskeah) |
Parts and Supplies Wish List
- Connector Parts needed to finish other 2 Printheads -- and also to try different filament cooling fans.
- 3 pieces of: https://www.digikey.ca/products/en?keywords=Wm1845-ND (Have 2 of these.)
- 20 pieces of: https://www.digikey.ca/products/en?keywords=Wm1837CT-ND (Have 4 of these.)
- 8 pieces of: https://www.digikey.ca/products/en?keywords=Wm1855-ND (Have 2 of these. Also for cooling fan.)
- 50 pieces of: https://www.digikey.ca/products/en?keywords=Wm1841CT-ND (Have NONE of these. Also for cooling fan.)
PLEASE NOTE: These connectors are extremely difficult to crimp in a manner they work. So at least double the crimp-connector parts are needed to get solid/working connectors.
- www.aliexpress.com/item/A-Funssor-Silicone-Socks-for-v6-hotend-SILICONE-HEATER-BLOCK-COVER-Heater-Block-Silicone-Insulation-Blue/32823079702.html
- 3pcs (for the 3 Printheads that were purchased), shipped by ePacket (becomes XpressPost in Canada.)
- This is the correct Silicone Sock for the "made in China" E3D clone heat-block that we are using.