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OrcaSlicerBot
2026-01-19 14:30:33 +00:00
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26
calibration/cornering-calib.md

@@ -23,23 +23,23 @@ This test will be set detect automatically your printer firmware type and will a
> JD values are between `0.0` and `0.3` (in mm) while Jerk values are usually between `1` and `20` or higher (in mm/s).
1. Pre-requisites:
1. If using Marlin 2 firmware, Check if your printer has Junction Deviation enabled. Look for `Junction deviation` in the printer's advanced settings.
2. In OrcaSlicer, set:
1. Acceleration high enough to trigger ringing or the speed you want to check out (e.g., 2000 mm/s²).
2. Speed high enough to trigger ringing (e.g., 100 mm/s).
3. Use an opaque, high-gloss filament to make ringing more visible.
1. If using Marlin 2 firmware, Check if your printer has Junction Deviation enabled. Look for `Junction deviation` in the printer's advanced settings.
2. In OrcaSlicer, set:
1. Acceleration high enough to trigger ringing or the speed you want to check out (e.g., 2000 mm/s²).
2. Speed high enough to trigger ringing (e.g., 100 mm/s).
3. Use an opaque, high-gloss filament to make ringing more visible.
2. Open the Cornering test.
![jd_first_menu](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/JunctionDeviation/jd_first_menu.png?raw=true)
1. In this first approximation, set a wide range of Start and End values.
- If you don't see any loss of quality, increase the End value and retry.
- If you do see a loss of quality, measure the maximum height when the corners start losing sharpness and read the Cornering/Jerk/JunctionDeviation value set at that point in OrcaSlicer.
![jd_first_print_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/JunctionDeviation/jd_first_print_measure.jpg?raw=true)
![jd_first_slicer_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/JunctionDeviation/jd_first_slicer_measure.png?raw=true)
2. Print a new calibration tower with a maximum set near the point where corners start losing sharpness.
1. In this first approximation, set a wide range of Start and End values.
- If you don't see any loss of quality, increase the End value and retry.
- If you do see a loss of quality, measure the maximum height when the corners start losing sharpness and read the Cornering/Jerk/JunctionDeviation value set at that point in OrcaSlicer.
![jd_first_print_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/JunctionDeviation/jd_first_print_measure.jpg?raw=true)
![jd_first_slicer_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/JunctionDeviation/jd_first_slicer_measure.png?raw=true)
2. Print a new calibration tower with a maximum set near the point where corners start losing sharpness.
**RECOMMENDED:** Use the *Ringing Tower* test model to more easily visualize the jerk limit.
3. Print the second Cornering test with the new maximum value.
3. Print the second Cornering test with the new maximum value.
![jd_second_menu](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/JunctionDeviation/jd_second_menu.png?raw=true)
4. Measure the maximum height when the corners start losing sharpness and read the Cornering/Jerk/JunctionDeviation value set at that point in OrcaSlicer.
4. Measure the maximum height when the corners start losing sharpness and read the Cornering/Jerk/JunctionDeviation value set at that point in OrcaSlicer.
![jd_second_print_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/JunctionDeviation/jd_second_print_measure.jpg?raw=true)
![jd_second_slicer_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/JunctionDeviation/jd_second_slicer_measure.png?raw=true)
3. Save the settings

6
calibration/flow-rate-calib.md

@@ -35,9 +35,9 @@ This method uses the [Archimedean Chords](strength_settings_patterns#archimedean
3. A new project with eleven blocks will be created, each with a different flow rate modifier. Slice and print the project.
![flowcalibration-yolo](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/Flow-Rate/flowcalibration-yolo.gif?raw=true)
4. Examine the printed blocks and identify the one with the best surface quality. Look for:
1. The smoothest top surface.
2. No visible gaps between the pattern arcs.
3. Minimal or no visible line between the Inner Spiral and the Outer Arcs.
1. The smoothest top surface.
2. No visible gaps between the pattern arcs.
3. Minimal or no visible line between the Inner Spiral and the Outer Arcs.
![flowcalibration-guide](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/Flow-Rate/flowcalibration-guide.png?raw=true)
In this example, the block with a flow modifier of `+0.01` produced the best results, despite a visible line between the Inner Spiral and the Outer Arcs; reducing the flow further begins to show gaps between the lines.
![flowcalibration-example](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/Flow-Rate/flowcalibration-example.png?raw=true)

8
calibration/input-shaping-calib.md

@@ -62,17 +62,17 @@ Pre-requisites:
3. Select a range of frequencies to test. The Default 15hz to 110hz range is usually a good start.
4. Select your damping. Usually, a value between 0.1 and 0.2 is a good start but you can change it to 0 and your printer will use the firmware default value (if available).
![IS_freq_menu](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/InputShaping/IS_freq_menu.png?raw=true)
1. **Measure the X and Y heights** and read the frequency set at that point in OrcaSlicer.
1. **Measure the X and Y heights** and read the frequency set at that point in OrcaSlicer.
![IS_freq_marlin_print_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/InputShaping/IS_freq_marlin_print_measure.jpg?raw=true)
- Marlin:
![IS_freq_marlin_slicer_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/InputShaping/IS_freq_marlin_slicer_measure.png?raw=true)
- Klipper:
![IS_freq_klipper_slicer_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/InputShaping/IS_freq_klipper_slicer_measure.png?raw=true)
2. If not a clear result, you can measure a X and Y min and max acceptable heights and repeat the test with that min and max value.
2. If not a clear result, you can measure a X and Y min and max acceptable heights and repeat the test with that min and max value.
5. **Print the Damping test** setting your X and Y frequency to the value you found in the previous step.
![IS_damp_menu](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/InputShaping/IS_damp_menu.png?raw=true)
1. Measure the X and Y heights and read the damping set at that point in OrcaSlicer.
![IS_damp_marlin_print_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/InputShaping/IS_damp_marlin_print_measure.jpg?raw=true)
1. Measure the X and Y heights and read the damping set at that point in OrcaSlicer.
![IS_damp_marlin_print_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/InputShaping/IS_damp_marlin_print_measure.jpg?raw=true)
- Marlin:
![IS_damp_marlin_slicer_measure](https://github.com/OrcaSlicer/OrcaSlicer_WIKI/blob/main/images/InputShaping/IS_damp_marlin_slicer_measure.png?raw=true)
- Klipper:

6
developer-reference/How-to-build.md

@@ -108,19 +108,19 @@ How to building with Visual Studio on Windows 64-bit.
x64 Native Tools Command Prompt for VS
```
1. Navigate to correct drive (if needed), e.g.:
1. Navigate to correct drive (if needed), e.g.:
```shell
N:
```
2. Change directory to the cloned repository, e.g.:
2. Change directory to the cloned repository, e.g.:
```shell
cd N:\Repos\OrcaSlicer
```
3. Run the build script:
3. Run the build script:
```shell
build_release_vs.bat