update WIKI

doc/Calibration.md

@@ -3,12 +3,17 @@
   1. [Line method](#Line-method)
   2. [Tower method](#Tower-method)
 - [Temp tower](#Temp-tower)
+- [Retraction test](#Retraction-test)
+- [Orca Tolerance Test](#Orca-Tolerance-Test)
 - [Advanced calibration]
   1. [Max Volumetric speed]
   2. [VFA]  
 
 **NOTE**: After completing the calibration process, remember to create a new project in order to exit the calibration mode.
 # Flow rate
+ ##### *NOTE: For Bambulab X1/X1C users, make sure you do not select the 'Flow calibration' option.*  
+ ![uncheck](https://user-images.githubusercontent.com/103989404/221345187-3c317a46-4d85-4221-99b9-adb5c7f48026.jpeg)  
+----------------------------------------
 ![flowrate](https://user-images.githubusercontent.com/103989404/210137579-3fd141ad-f2da-4542-a1fd-fc4b4d673908.gif)
 Calibrating the flow rate involves a two-step process.  
 Steps
@@ -26,13 +31,10 @@ Steps
 ![-6](https://user-images.githubusercontent.com/103989404/210139131-ee224146-b242-4c1c-ac96-35ef0ca591f1.jpg)
 ![image](https://user-images.githubusercontent.com/103989404/210139721-919be130-fbba-4e3a-aa58-8a563e8c7792.png)
 
-### NOTE: 
-* For Bambulab X1/X1C users, make sure you do not select the 'Flow calibration' option.*  
-![uncheck](https://user-images.githubusercontent.com/103989404/221345187-3c317a46-4d85-4221-99b9-adb5c7f48026.jpeg)
-
 # Pressure Advance
 I will present two approaches for calibrating the pressure advance value. Both methods have their own advantages and disadvantages. It is important to note that each method has two versions: one for a direct drive extruder and one for a Bowden extruder. Make sure to select the appropriate version for your test.  
-
+ ##### *NOTE: For Bambulab X1/X1C users, make sure you do not select the 'Flow calibration' option.*  
+ ![uncheck](https://user-images.githubusercontent.com/103989404/221345187-3c317a46-4d85-4221-99b9-adb5c7f48026.jpeg)  
 ### Line method
 The line method is quick and straightforward to test. However, its accuracy highly depends on your first layer quality. It is suggested to turn on the bed mesh leveling for this test.
 Steps:
@@ -56,16 +58,30 @@ Steps:
 ![tower](https://user-images.githubusercontent.com/103989404/210140231-e886b98d-280a-4464-9781-c74ed9b7d44e.jpg)
 
 ![tower_measure](https://user-images.githubusercontent.com/103989404/210140232-885b549b-e3b8-46b9-a24c-5229c9182408.jpg)
-### NOTE: 
-* For Bambulab X1/X1C users, make sure you do not select the 'Flow calibration' option.*  
-![uncheck](https://user-images.githubusercontent.com/103989404/221345187-3c317a46-4d85-4221-99b9-adb5c7f48026.jpeg)
 
 # Temp tower 
-![temp_tower](https://user-images.githubusercontent.com/103989404/221344534-40e1a629-450c-4ad5-a051-8e240e261a51.jpeg)  
+![image](./images/temp_tower_test.gif)  
 Temp tower is a straightforward test. The temp tower is a vertical tower with multiple blocks, each printed at a different temperature. Once the print is complete, we can examine each block of the tower and determine the optimal temperature for the filament. The optimal temperature is the one that produces the highest quality print with the least amount of issues, such as stringing, layer adhesion, warping (overhang), and bridging.  
+![temp_tower](https://user-images.githubusercontent.com/103989404/221344534-40e1a629-450c-4ad5-a051-8e240e261a51.jpeg)  
 
-# Retraction tower
+# Retraction test
 ![image](./images/retraction_test.gif)  
+This test generates a retraction tower automatically. The retraction tower is a vertical structure with multiple notches, each printed at a different retraction length. After the print is complete, we can examine each section of the tower to determine the optimal retraction length for the filament. The optimal retraction length is the shortest one that produces the cleanest tower.  
+![image](./images/retraction_test_dlg.png)  
+In the dialog, you can select the start and end retraction length, as well as the retraction length increment step. The default values are 0mm for the start retraction length, 2mm for the end retraction length, and 0.1mm for the step. These values are suitable for most direct drive extruders. However, for Bowden extruders, you may want to increase the start and end retraction lengths to 1mm and 6mm, respectively, and set the step to 0.2mm.
+
+**Note**: When testing filaments such as PLA or ABS that have minimal oozing, the retraction settings can be highly effective. You may find that the retraction tower appears clean right from the start. In such situations, setting the retraction length to 0.2mm - 0.4mm using Orca Slicer should suffice.
+On the other hand, if there is still a lot of stringing at the top of the tower, it is recommended to dry your filament and ensure that your nozzle is properly installed without any leaks.  
+![image](./images/retraction_test_print.jpg)  
+
+# Orca Tolerance Test
+This tolerance test is specifically designed to assess the dimensional accuracy of your printer and filament. The model comprises a base and a hexagon tester. The base contains six hexagon hole, each with a different tolerance: 0.0mm, 0.05mm, 0.1mm, 0.2mm, 0.3mm, and 0.4mm. The dimensions of the hexagon tester are illustrated in the image.  
+![image](./images/tolerance_hole.jpg) 
+
+You can assess the tolerance using either an M6 Allen key or the printed hexagon tester.  
+![image](./images/OrcaToleranceTes_m6.jpg)  
+![image](./images/OrcaToleranceTest_print.jpg)  
+
 ***
 *Credits:*  
 - *The Flowrate test and retraction test is inspired by [SuperSlicer](https://github.com/supermerill/SuperSlicer)*