Updated Wiki content

material_settings/filament/material_flow_ratio_and_pressure_advance.md

@@ -15,7 +15,7 @@ Flow ratio and pressure advance settings for the selected material.
 [Variable](built_in_placeholders_variables): `filament_flow_ratio`.  
 The material may have volumetric change after switching between molten and crystalline states. This setting changes all extrusion flow of this filament in G-code proportionally.  
 The recommended value range is between 0.95 and 1.05. You may be able to tune this value to get a nice flat surface if there is slight overflow or underflow.  
-The final object flow ratio is this value multiplied by the filament flow ratio.
+The final object flow ratio is this value multiplied by the [filament flow ratio](material_flow_ratio_and_pressure_advance#flow-ratio).
 
 > [!TIP]
 > Check the [Flow Ratio Calibration guide](flow_ratio_calib).

material_settings/filament/material_temperatures.md

@@ -60,7 +60,7 @@ In general, following the manufacturer’s recommendations, maintaining a clean
 
 ## Print Chamber Temperature
 
-[Variables](built_in_placeholders_variables): `chamber_temperature`, `activate_chamber_temp_control`.  
+[Variables](built_in_placeholders_variables): `activate_chamber_temp_control`, `chamber_temperature`.  
 Chamber temperature can affect the print quality, especially for high-temperature filaments.  
 A heated chamber can help to maintain a consistent temperature throughout the print, reducing the risk of warping and improving layer adhesion. However, it is important to monitor the chamber temperature to ensure that it does not exceed the filament's deformation temperature.
 

print_settings/others/others_settings_brim.md

@@ -15,6 +15,7 @@ Brim is a flat layer printed around a model's base to improve adhesion to the pr
         - [Ear detection radius](#ear-detection-radius)
 - [Width](#width)
 - [Brim-Object Gap](#brim-object-gap)
+    - [Brim Flow Ratio](#brim-flow-ratio)
     - [Brim use EFC outline](#brim-use-efc-outline)
 - [Combine brims](#combine-brims)
     - [Combined](#combined)
@@ -110,6 +111,16 @@ Increasing this value widens the brim, which can improve adhesion but increases
 Gap between the innermost brim line and the object.  
 Increasing the gap makes the brim easier to remove but reduces its adhesion benefit; very large gaps may eliminate contact and negate the brim's purpose.
 
+### Brim Flow Ratio
+
+[Variable](built_in_placeholders_variables): `brim_flow_ratio`.  
+This factor affects the amount of material for [brims](#brim).
+Setting this value slightly above 1.0 can help the brim hold the print on the plate, but it can also make brims harder to remove.
+The actual brim [flow](quality_settings_wall_and_surfaces#surface-flow-ratio) used is calculated by multiplying this value by the [filament flow ratio](material_flow_ratio_and_pressure_advance#flow-ratio), and if set, the object's flow ratio.
+
+> [!NOTE]
+> The resulting value will not be affected by the [first-layer flow ratio](quality_settings_wall_and_surfaces#surface-flow-ratio).
+
 ### Brim use EFC outline
 
 [Variable](built_in_placeholders_variables): `brim_use_efc_outline`.  

print_settings/quality/quality_settings_bridging.md

@@ -13,13 +13,13 @@
 
 [Variables](built_in_placeholders_variables): `bridge_flow`, `internal_bridge_flow`.  
 Decrease this value slightly (for example 0.9) to reduce the amount of material for bridge, to improve sag.  
-The actual bridge flow used is calculated by multiplying this value with the filament flow ratio, and if set, the object's flow ratio.
+The actual bridge flow used is calculated by multiplying this value with the [filament flow ratio](material_flow_ratio_and_pressure_advance#flow-ratio), and if set, the object's flow ratio.
 
 ## Bridge density
 
 [Variables](built_in_placeholders_variables): `bridge_density`, `internal_bridge_density`.  
 This value governs the thickness of the bridge layer. This is the first layer over sparse infill. Decrease this value slightly (for example 0.9) to improve surface quality over sparse infill.  
-The actual internal bridge flow used is calculated by multiplying this value with the [bridge flow ratio](#flow-ratio), the filament flow ratio, and if set, the object's flow ratio.
+The actual internal bridge flow used is calculated by multiplying this value with the [bridge flow ratio](#flow-ratio), the [filament flow ratio](material_flow_ratio_and_pressure_advance#flow-ratio), and if set, the object's flow ratio.
 
 ## Thick bridges
 

print_settings/quality/quality_settings_wall_and_surfaces.md

@@ -70,7 +70,7 @@ The usage of [Reverse on even](quality_settings_overhangs#reverse-on-even) will
 
 [Variables](built_in_placeholders_variables): `print_flow_ratio`, `top_solid_infill_flow_ratio`, `bottom_solid_infill_flow_ratio`, `set_other_flow_ratios`, `first_layer_flow_ratio`, `outer_wall_flow_ratio`, `inner_wall_flow_ratio`, `overhang_flow_ratio`, `sparse_infill_flow_ratio`, `internal_solid_infill_flow_ratio`, `gap_fill_flow_ratio`, `support_flow_ratio`, `support_interface_flow_ratio`.  
 This factor affects the amount of material for [top or bottom solid infill](strength_settings_top_bottom_shells). You can decrease it slightly to have smooth surface finish.  
-The actual top or bottom surface flow used is calculated by multiplying this value by the filament flow ratio, and if set, the object's flow ratio.
+The actual top or bottom surface flow used is calculated by multiplying this value by the [filament flow ratio](material_flow_ratio_and_pressure_advance#flow-ratio), and if set, the object's flow ratio.
 
 Other flow ratios, such as ratios for the first layer (does not affect brims and skirts), outer and inner walls, overhang perimeters, sparse infill, internal solid infill, gap fill, support, and support interfaces, can also be adjusted after enabling the "Set other flow ratios" option.