[Solved] Curious wood grain pattern on Core XY prints
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@dc42 said in Curious wood grain pattern on Core XY prints:
The planner already filters out null moves. Are you sure that those moves generated by Slic3r are what is causing the problem?
At what threshold does RRF filter the moves? Does it relate to the current steps/mm setting?
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@phaedrux said in Curious wood grain pattern on Core XY prints:
@digitalvision said in Curious wood grain pattern on Core XY prints:
M350 X64 Y64 Z256 U256 V256 E256 I0
Try configuring your steps per mm and microstepping for 16x microsteps interpolated to 256.
I think you may be hitting a step rate limit on curved surfaces.
After a print if you run a M122 do you see hiccups or step errors?
I changed all steppers to 16x stepping – kept interpolation disabled. Except for the printer being much noisier I couldn't see any difference. The grain patterns were identical. M122 output:
=== Diagnostics === RepRapFirmware for Duet 2 WiFi/Ethernet version 2.02RC2(RTOS) running on Duet WiFi 1.02 or later + DueX2 Board ID: 08DGM-9T6BU-FG3SN-6J1D6-3S86Q-KAZHF Used output buffers: 3 of 20 (20 max) === RTOS === Static ram: 28460 Dynamic ram: 98340 of which 0 recycled Exception stack ram used: 508 Never used ram: 3764 Tasks: NETWORK(ready,408) HEAT(blocked,1192) MAIN(running,3484) Owned mutexes: WiFi(NETWORK) === Platform === Last reset 00:12:49 ago, cause: software Last software reset at 2018-10-06 15:43, reason: User, spinning module GCodes, available RAM 3988 bytes (slot 3) Software reset code 0x0003 HFSR 0x00000000 CFSR 0x00000000 ICSR 0x0041f000 BFAR 0xe000ed38 SP 0xffffffff Task 0x4e49414d Error status: 4 Free file entries: 10 SD card 0 detected, interface speed: 20.0MBytes/sec SD card longest block write time: 0.0ms, max retries 0 MCU temperature: min 34.5, current 35.1, max 36.2 Supply voltage: min 24.0, current 24.2, max 24.5, under voltage events: 0, over voltage events: 0 Driver 0: standstill, SG min/max 0/259 Driver 1: standstill, SG min/max 0/240 Driver 2: standstill, SG min/max 60/200 Driver 3: standstill, SG min/max 0/0 Driver 4: standstill, SG min/max 13/197 Driver 5: standstill, SG min/max 0/234 Driver 6: standstill, SG min/max not available Expansion motor(s) stall indication: yes Date/time: 1970-01-01 00:00:00 Slowest loop: 131.22ms; fastest: 0.08ms === Move === Hiccups: 0, StepErrors: 0, LaErrors: 0, FreeDm: 240, MinFreeDm: 127, MaxWait: 10ms, Underruns: 0, 1 Scheduled moves: 0, completed moves: 0 Bed compensation in use: none Bed probe heights: 0.000 0.000 0.000 0.000 0.000 === Heat === Bed heaters = 0 -1 -1 -1, chamberHeaters = -1 -1 Heater 0 is on, I-accum = 0.0 Heater 1 is on, I-accum = 0.4 === GCodes === Segments left: 0 Stack records: 2 allocated, 0 in use Movement lock held by null http is idle in state(s) 0 telnet is idle in state(s) 0 file is idle in state(s) 0 serial is idle in state(s) 0 aux is idle in state(s) 0 daemon is idle in state(s) 0 queue is idle in state(s) 0 autopause is idle in state(s) 0 Code queue is empty. === Network === Slowest loop: 173.23ms; fastest: 0.08ms Responder states: HTTP(0) HTTP(0) HTTP(0) HTTP(0) FTP(0) Telnet(0) Telnet(0) HTTP sessions: 1 of 8 - WiFi - Network state is running WiFi module is connected to access point Failed messages: pending 0, notready 0, noresp 0 WiFi firmware version 1.21 WiFi Vcc 3.40, reset reason Turned on by main processor WiFi flash size 4194304, free heap 16552 WiFi signal strength -51dBm, reconnections 0, sleep mode modem Socket states: 0 0 0 0 0 0 0 0 === Expansion === DueX I2C errors 0
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@digitalvision is that M122 from 16 microsteps or before?
Interpolation would deal with the noise.
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@phaedrux Yes, this M122 is with 16x microstepping. Same gain pattern as with the higher microstepping settings. Confirmed that interpolation eliminates the noise – I just wanted to see what raw 16x produced.
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@digitalvision what kind of extruder are you using? The only time I've seen similar surface artifacts was when a bearing had failed in my titan aero.
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It's a custom direct driven extruder. Mk7 drive gear directly on the stepper shaft, spring loaded bearing opposite for grip.
So I keep peeling the onion. Two prints:
P1: 0.2 mm layers, 0.4 mm extrusion width
P2: 0.15 mm layers, 0.5333 mm extrusion widthThis should result in identical motion on X,Y,E axes, and slower motion on Z.
The grain pattern density increases by the corresponding amount (I count ~14 grain lines vs 10.5 grain lines) over the same Z distance at the same part of the prints.
So with this, the Z stage should be eliminated as a source.
Next,
P3: 0.2 mm layers, 0.6 mm extrusion width.
The extruder now runs 50 % faster than P1. Almost but not quite the same grain density. I count 9.5 rather than 10.5 grains. The grain patterns are still aligned with the X axis.
So the issue seems mostly (but possibly not entirely) unrelated to the E axis. Another variant:
P4: 0.3 mm extrusion width.
Now the extruder is running 25 % slower than P1. Identical pattern to P1 though.
For all three cases, P1, P3 and P4 the extruder runs at different speeds – but the grain pattern is still aligned with the X axis of the printer and is basically similar (P3 maybe slightly different).
If it were a bad bearing or similar in the extruder I would expect dramatic changes in the pattern when the extruder vs XY relative motion changes.
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You’ve turned off any kind of Z probing / autoleveling routines (including in override config file if you have one) right?
What happens if you print two objects side by side? Are the lines continuous across the objects (ie hold up a straightedge before taking them off the bed if you can)?
Is it more visible at higher print speeds or lower print speeds?
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Have you tried without pressure advance?
0.08 seems a little high for a direct drive extruder -
The issue is solved now. Thanks everyone for valuable input.
The fact that I got slightly different grain density between 0.6 and 0.4 mm extrusion width made me suspicious. Looking deeper at the grain patterns, comparing them side-by side, I found that they were not perfectly consistent print-to-print. This made me suspect something mechanical.
The other clue was the fact that the grain patterns changed not with Z, but with layer count. Basically, the shift happened every time the y axis moved. And what could mechanically gradually shift several centimeters over the duration of a print? I could think of only one thing. The recirculating balls in the linear bearings. So I took my y axis apart. The motion of the two bearings felt perfectly smooth when moved by hand, but I still took them apart, took all the balls out – cleaned them with mineral spirits and dried them with ethanol – and among the small pieces of dust and debris that came out of one was what looked like a tiny piece of aluminium shaving. Repackaged them with PTFE grease and issue solved.
@phaedrux said in Curious wood grain pattern on Core XY prints:
0.08 seems a little high for a direct drive extruder
I calibrated it using this technique: https://forum.duet3d.com/topic/6698/pressure-advance-calibration Really quick method to get the value dialed in accurately. (The only other thing I needed to do was to increase the default infill-to-perimeter overlap setting in my slicer, since you can no longer rely on blobbing at the end of long infill lines to fill in the gaps.)
@rcarlyle said in Curious wood grain pattern on Core XY prints:
Is it more visible at higher print speeds or lower print speeds?
Changing print speed made almost no difference at all.
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@DigitalVision Thanks for the report on how you solved it., Just goes to show how many intersecting issues can cause these sorts of print artefacts.
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Pretty crazy that the debris shifted a consistent enough amount per layer to produce lines like that.