From b22438c3dc544a8244c131aee9ee19eea2ac4c7c Mon Sep 17 00:00:00 2001 From: OrcaSlicerBot Date: Mon, 19 Jan 2026 14:30:33 +0000 Subject: [PATCH] Updated Wiki content --- calibration/cornering-calib.md | 26 +++++++++++++------------- calibration/flow-rate-calib.md | 6 +++--- calibration/input-shaping-calib.md | 8 ++++---- developer-reference/How-to-build.md | 6 +++--- 4 files changed, 23 insertions(+), 23 deletions(-) diff --git a/calibration/cornering-calib.md b/calibration/cornering-calib.md index 65a1a44..d8d3ede 100644 --- a/calibration/cornering-calib.md +++ b/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 diff --git a/calibration/flow-rate-calib.md b/calibration/flow-rate-calib.md index 914b9ef..4c904f5 100644 --- a/calibration/flow-rate-calib.md +++ b/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) diff --git a/calibration/input-shaping-calib.md b/calibration/input-shaping-calib.md index 9c60657..a3aee97 100644 --- a/calibration/input-shaping-calib.md +++ b/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: diff --git a/developer-reference/How-to-build.md b/developer-reference/How-to-build.md index ec561f3..b0a0cc8 100644 --- a/developer-reference/How-to-build.md +++ b/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