Cura 변수 모음 2
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| Material | ||
|---|---|---|
| {default_material_print_temperature} | Default Printing Temperature | The default temperature used for printing. This should be the "base" temperature of a material. All other print temperatures should use offsets based on this value |
| {build_volume_temperature} | Build Volume Temperature | The temperature of the environment to print in. If this is 0, the build volume temperature will not be adjusted. |
| {material_print_temperature} | Printing Temperature | The temperature used for printing. |
| {material_print_temperature_layer_0} | Printing Temperature Initial Layer | The temperature used for printing the first layer. Set at 0 to disable special handling of the initial layer. |
| {material_initial_print_temperature} | Initial Printing Temperature | The minimal temperature while heating up to the Printing Temperature at which printing can already start. |
| {material_final_print_temperature} | Final Printing Temperature | The temperature to which to already start cooling down just before the end of printing. |
| {material_extrusion_cool_down_speed} | Extrusion Cool Down Speed Modifier | The extra speed by which the nozzle cools while extruding. The same value is used to signify the heat up speed lost when heating up while extruding. |
| {default_material_bed_temperature} | Default Build Plate Temperature | The default temperature used for the heated build plate. This should be the "base" temperature of a build plate. All other print temperatures should use offsets based on this value |
| {material_bed_temperature} | Build Plate Temperature | The temperature used for the heated build plate. If this is 0, the build plate is left unheated. |
| {material_bed_temperature_layer_0} | Build Plate Temperature Initial Layer | The temperature used for the heated build plate at the first layer. If this is 0, the build plate is left unheated during the first layer. |
| {material_adhesion_tendency} | Adhesion Tendency | Surface adhesion tendency. |
| {material_surface_energy} | Surface Energy | Surface energy. |
| {material_shrinkage_percentage} | Scaling Factor Shrinkage Compensation | To compensate for the shrinkage of the material as it cools down, the model will be scaled with this factor. |
| {material_crystallinity} | Crystalline Material | Is this material the type that breaks off cleanly when heated (crystalline), or is it the type that produces long intertwined polymer chains (non-crystalline)? |
| {material_anti_ooze_retracted_position} | Anti-ooze Retracted Position | How far the material needs to be retracted before it stops oozing. |
| {material_anti_ooze_retraction_speed} | Anti-ooze Retraction Speed | How fast the material needs to be retracted during a filament switch to prevent oozing. |
| {material_break_preparation_retracted_position} | Break Preparation Retracted Position | How far the filament can be stretched before it breaks, while heated. |
| {material_break_preparation_speed} | Break Preparation Retraction Speed | How fast the filament needs to be retracted just before breaking it off in a retraction. |
| {material_break_preparation_temperature} | Break Preparation Temperature | The temperature used to purge material, should be roughly equal to the highest possible printing temperature. |
| {material_break_retracted_position} | Break Retracted Position | How far to retract the filament in order to break it cleanly. |
| {material_break_speed} | Break Retraction Speed | The speed at which to retract the filament in order to break it cleanly. |
| {material_break_temperature} | Break Temperature | The temperature at which the filament is broken for a clean break. |
| {material_flush_purge_speed} | Flush Purge Speed | How fast to prime the material after switching to a different material. |
| {material_flush_purge_length} | Flush Purge Length | How much material to use to purge the previous material out of the nozzle (in length of filament) when switching to a different material. |
| {material_end_of_filament_purge_speed} | End of Filament Purge Speed | How fast to prime the material after replacing an empty spool with a fresh spool of the same material. |
| {material_end_of_filament_purge_length} | End of Filament Purge Length | How much material to use to purge the previous material out of the nozzle (in length of filament) when replacing an empty spool with a fresh spool of the same material. |
| {material_maximum_park_duration} | Maximum Park Duration | How long the material can be kept out of dry storage safely. |
| {material_no_load_move_factor} | No Load Move Factor | A factor indicating how much the filament gets compressed between the feeder and the nozzle chamber, used to determine how far to move the material for a filament switch. |
| {material_flow} | Flow | Flow compensation: the amount of material extruded is multiplied by this value. |
| {wall_material_flow} | Wall Flow | Flow compensation on wall lines. |
| {wall_0_material_flow} | Outer Wall Flow | Flow compensation on the outermost wall line. |
| {wall_x_material_flow} | Inner Wall(s) Flow | Flow compensation on wall lines for all wall lines except the outermost one. |
| {skin_material_flow} | Top/Bottom Flow | Flow compensation on top/bottom lines. |
| {roofing_material_flow} | Top Surface Skin Flow | Flow compensation on lines of the areas at the top of the print. |
| {infill_material_flow} | Infill Flow | Flow compensation on infill lines. |
| {skirt_brim_material_flow} | Skirt/Brim Flow | Flow compensation on skirt or brim lines. |
| {support_material_flow} | Support Flow | Flow compensation on support structure lines. |
| {support_interface_material_flow} | Support Interface Flow | Flow compensation on lines of support roof or floor. |
| {support_roof_material_flow} | Support Roof Flow | Flow compensation on support roof lines. |
| {support_bottom_material_flow} | Support Floor Flow | Flow compensation on support floor lines. |
| {prime_tower_flow} | Prime Tower Flow | Flow compensation on prime tower lines. |
| {material_flow_layer_0} | Initial Layer Flow | Flow compensation for the first layer: the amount of material extruded on the initial layer is multiplied by this value. |
| {material_standby_temperature} | Standby Temperature | The temperature of the nozzle when another nozzle is currently used for printing. |
| Speed | ||
| {speed_print} | Print Speed | The speed at which printing happens. |
| {speed_infill} | Infill Speed | The speed at which infill is printed. |
| {speed_wall} | Wall Speed | The speed at which the walls are printed. |
| {speed_wall_0} | Outer Wall Speed | The speed at which the outermost walls are printed. Printing the outer wall at a lower speed improves the final skin quality. However, having a large difference between the inner wall speed and the outer wall speed will affect quality in a negative way. |
| {speed_wall_x} | Inner Wall Speed | The speed at which all inner walls are printed. Printing the inner wall faster than the outer wall will reduce printing time. It works well to set this in between the outer wall speed and the infill speed. |
| {speed_roofing} | Top Surface Skin Speed | The speed at which top surface skin layers are printed. |
| {speed_topbottom} | Top/Bottom Speed | The speed at which top/bottom layers are printed. |
| {speed_support} | Support Speed | The speed at which the support structure is printed. Printing support at higher speeds can greatly reduce printing time. The surface quality of the support structure is not important since it is removed after printing. |
| {speed_support_infill} | Support Infill Speed | The speed at which the infill of support is printed. Printing the infill at lower speeds improves stability. |
| {speed_support_interface} | Support Interface Speed | The speed at which the roofs and floors of support are printed. Printing them at lower speeds can improve overhang quality. |
| {speed_support_roof} | Support Roof Speed | The speed at which the roofs of support are printed. Printing them at lower speeds can improve overhang quality. |
| {speed_support_bottom} | Support Floor Speed | The speed at which the floor of support is printed. Printing it at lower speed can improve adhesion of support on top of your model. |
| {speed_prime_tower} | Prime Tower Speed | The speed at which the prime tower is printed. Printing the prime tower slower can make it more stable when the adhesion between the different filaments is suboptimal. |
| {speed_travel} | Travel Speed | The speed at which travel moves are made. |
| {speed_layer_0} | Initial Layer Speed | The speed for the initial layer. A lower value is advised to improve adhesion to the build plate. Does not affect the build plate adhesion structures themselves, like brim and raft. |
| {speed_print_layer_0} | Initial Layer Print Speed | The speed of printing for the initial layer. A lower value is advised to improve adhesion to the build plate. |
| {speed_travel_layer_0} | Initial Layer Travel Speed | The speed of travel moves in the initial layer. A lower value is advised to prevent pulling previously printed parts away from the build plate. The value of this setting can automatically be calculated from the ratio between the Travel Speed and the Print Speed. |
| {skirt_brim_speed} | Skirt/Brim Speed | The speed at which the skirt and brim are printed. Normally this is done at the initial layer speed, but sometimes you might want to print the skirt or brim at a different speed. |
| {speed_z_hop} | Z Hop Speed | The speed at which the vertical Z movement is made for Z Hops. This is typically lower than the print speed since the build plate or machine's gantry is harder to move. |
| {speed_slowdown_layers} | Number of Slower Layers | The first few layers are printed slower than the rest of the model, to get better adhesion to the build plate and improve the overall success rate of prints. The speed is gradually increased over these layers. |
| {speed_equalize_flow_enabled} | Equalize Filament Flow | Print thinner than normal lines faster so that the amount of material extruded per second remains the same. Thin pieces in your model might require lines printed with smaller line width than provided in the settings. This setting controls the speed changes for such lines. |
| {speed_equalize_flow_max} | Maximum Speed for Flow Equalization | Maximum print speed when adjusting the print speed in order to equalize flow. |
| {acceleration_enabled} | Enable Acceleration Control | Enables adjusting the print head acceleration. Increasing the accelerations can reduce printing time at the cost of print quality. |
| {acceleration_print} | Print Acceleration | The acceleration with which printing happens. |
| {acceleration_infill} | Infill Acceleration | The acceleration with which infill is printed. |
| {acceleration_wall} | Wall Acceleration | The acceleration with which the walls are printed. |
| {acceleration_wall_0} | Outer Wall Acceleration | The acceleration with which the outermost walls are printed. |
| {acceleration_wall_x} | Inner Wall Acceleration | The acceleration with which all inner walls are printed. |
| {acceleration_roofing} | Top Surface Skin Acceleration | The acceleration with which top surface skin layers are printed. |
| {acceleration_topbottom} | Top/Bottom Acceleration | The acceleration with which top/bottom layers are printed. |
| {acceleration_support} | Support Acceleration | The acceleration with which the support structure is printed. |
| {acceleration_support_infill} | Support Infill Acceleration | The acceleration with which the infill of support is printed. |
| {acceleration_support_interface} | Support Interface Acceleration | The acceleration with which the roofs and floors of support are printed. Printing them at lower acceleration can improve overhang quality. |
| {acceleration_support_roof} | Support Roof Acceleration | The acceleration with which the roofs of support are printed. Printing them at lower acceleration can improve overhang quality. |
| {acceleration_support_bottom} | Support Floor Acceleration | The acceleration with which the floors of support are printed. Printing them at lower acceleration can improve adhesion of support on top of your model. |
| {acceleration_prime_tower} | Prime Tower Acceleration | The acceleration with which the prime tower is printed. |
| {acceleration_travel} | Travel Acceleration | The acceleration with which travel moves are made. |
| {acceleration_layer_0} | Initial Layer Acceleration | The acceleration for the initial layer. |
| {acceleration_print_layer_0} | Initial Layer Print Acceleration | The acceleration during the printing of the initial layer. |
| {acceleration_travel_layer_0} | Initial Layer Travel Acceleration | The acceleration for travel moves in the initial layer. |
| {acceleration_skirt_brim} | Skirt/Brim Acceleration | The acceleration with which the skirt and brim are printed. Normally this is done with the initial layer acceleration, but sometimes you might want to print the skirt or brim at a different acceleration. |
| {jerk_enabled} | Enable Jerk Control | Enables adjusting the jerk of print head when the velocity in the X or Y axis changes. Increasing the jerk can reduce printing time at the cost of print quality. |
| {jerk_print} | Print Jerk | The maximum instantaneous velocity change of the print head. |
| {jerk_infill} | Infill Jerk | The maximum instantaneous velocity change with which infill is printed. |
| {jerk_wall} | Wall Jerk | The maximum instantaneous velocity change with which the walls are printed. |
| {jerk_wall_0} | Outer Wall Jerk | The maximum instantaneous velocity change with which the outermost walls are printed. |
| {jerk_wall_x} | Inner Wall Jerk | The maximum instantaneous velocity change with which all inner walls are printed. |
| {jerk_roofing} | Top Surface Skin Jerk | The maximum instantaneous velocity change with which top surface skin layers are printed. |
| {jerk_topbottom} | Top/Bottom Jerk | The maximum instantaneous velocity change with which top/bottom layers are printed. |
| {jerk_support} | Support Jerk | The maximum instantaneous velocity change with which the support structure is printed. |
| {jerk_support_infill} | Support Infill Jerk | The maximum instantaneous velocity change with which the infill of support is printed. |
| {jerk_support_interface} | Support Interface Jerk | The maximum instantaneous velocity change with which the roofs and floors of support are printed. |
| {jerk_support_roof} | Support Roof Jerk | The maximum instantaneous velocity change with which the roofs of support are printed. |
| {jerk_support_bottom} | Support Floor Jerk | The maximum instantaneous velocity change with which the floors of support are printed. |
| {jerk_prime_tower} | Prime Tower Jerk | The maximum instantaneous velocity change with which the prime tower is printed. |
| {jerk_travel} | Travel Jerk | The maximum instantaneous velocity change with which travel moves are made. |
| {jerk_layer_0} | Initial Layer Jerk | The print maximum instantaneous velocity change for the initial layer. |
| {jerk_print_layer_0} | Initial Layer Print Jerk | The maximum instantaneous velocity change during the printing of the initial layer. |
| {jerk_travel_layer_0} | Initial Layer Travel Jerk | The acceleration for travel moves in the initial layer. |
| {jerk_skirt_brim} | Skirt/Brim Jerk | The maximum instantaneous velocity change with which the skirt and brim are printed. |
| Travel | ||
| {retraction_enable} | Enable Retraction | Retract the filament when the nozzle is moving over a non-printed area. |
| {retract_at_layer_change} | Retract at Layer Change | Retract the filament when the nozzle is moving to the next layer. |
| {retraction_amount} | Retraction Distance | The length of material retracted during a retraction move. |
| {retraction_speed} | Retraction Speed | The speed at which the filament is retracted and primed during a retraction move. |
| {retraction_retract_speed} | Retraction Retract Speed | The speed at which the filament is retracted during a retraction move. |
| {retraction_prime_speed} | Retraction Prime Speed | The speed at which the filament is primed during a retraction move. |
| {retraction_extra_prime_amount} | Retraction Extra Prime Amount | Some material can ooze away during a travel move, which can be compensated for here. |
| {retraction_min_travel} | Retraction Minimum Travel | The minimum distance of travel needed for a retraction to happen at all. This helps to get fewer retractions in a small area. |
| {retraction_count_max} | Maximum Retraction Count | This setting limits the number of retractions occurring within the minimum extrusion distance window. Further retractions within this window will be ignored. This avoids retracting repeatedly on the same piece of filament, as that can flatten the filament and cause grinding issues. |
| {retraction_extrusion_window} | Minimum Extrusion Distance Window | The window in which the maximum retraction count is enforced. This value should be approximately the same as the retraction distance, so that effectively the number of times a retraction passes the same patch of material is limited. |
| {limit_support_retractions} | Limit Support Retractions | Omit retraction when moving from support to support in a straight line. Enabling this setting saves print time, but can lead to excessive stringing within the support structure. |
| {retraction_combing} | Combing Mode | Combing keeps the nozzle within already printed areas when traveling. This results in slightly longer travel moves but reduces the need for retractions. If combing is off, the material will retract and the nozzle moves in a straight line to the next point. It is also possible to avoid combing over top/bottom skin areas or to only comb within the infill. |
| {retraction_combing_max_distance} | Max Comb Distance With No Retract | When non-zero, combing travel moves that are longer than this distance will use retraction. |
| {travel_retract_before_outer_wall} | Retract Before Outer Wall | Always retract when moving to start an outer wall. |
| {travel_avoid_other_parts} | Avoid Printed Parts When Traveling | The nozzle avoids already printed parts when traveling. This option is only available when combing is enabled. |
| {travel_avoid_supports} | Avoid Supports When Traveling | The nozzle avoids already printed supports when traveling. This option is only available when combing is enabled. |
| {travel_avoid_distance} | Travel Avoid Distance | The distance between the nozzle and already printed parts when avoiding during travel moves. |
| {layer_start_x} | Layer Start X | The X coordinate of the position near where to find the part to start printing each layer. |
| {layer_start_y} | Layer Start Y | The Y coordinate of the position near where to find the part to start printing each layer. |
| {retraction_hop_enabled} | Z Hop When Retracted | Whenever a retraction is done, the build plate is lowered to create clearance between the nozzle and the print. It prevents the nozzle from hitting the print during travel moves, reducing the chance to knock the print from the build plate. |
| {retraction_hop_only_when_collides} | Z Hop Only Over Printed Parts | Only perform a Z Hop when moving over printed parts which cannot be avoided by horizontal motion by Avoid Printed Parts when Traveling. |
| {retraction_hop} | Z Hop Height | The height difference when performing a Z Hop. |
| {retraction_hop_after_extruder_switch} | Z Hop After Extruder Switch | After the machine switched from one extruder to the other, the build plate is lowered to create clearance between the nozzle and the print. This prevents the nozzle from leaving oozed material on the outside of a print. |
| {retraction_hop_after_extruder_switch_height} | Z Hop After Extruder Switch Height | The height difference when performing a Z Hop after extruder switch. |
| Cooling | ||
| {cool_fan_enabled} | Enable Print Cooling | Enables the print cooling fans while printing. The fans improve print quality on layers with short layer times and bridging / overhangs. |
| {cool_fan_speed} | Fan Speed | The speed at which the print cooling fans spin. |
| {cool_fan_speed_min} | Regular Fan Speed | The speed at which the fans spin before hitting the threshold. When a layer prints faster than the threshold, the fan speed gradually inclines towards the maximum fan speed. |
| {cool_fan_speed_max} | Maximum Fan Speed | The speed at which the fans spin on the minimum layer time. The fan speed gradually increases between the regular fan speed and maximum fan speed when the threshold is hit. |
| {cool_min_layer_time_fan_speed_max} | Regular/Maximum Fan Speed Threshold | The layer time which sets the threshold between regular fan speed and maximum fan speed. Layers that print slower than this time use regular fan speed. For faster layers the fan speed gradually increases towards the maximum fan speed. |
| {cool_fan_speed_0} | Initial Fan Speed | The speed at which the fans spin at the start of the print. In subsequent layers the fan speed is gradually increased up to the layer corresponding to Regular Fan Speed at Height. |
| {cool_fan_full_at_height} | Regular Fan Speed at Height | The height at which the fans spin on regular fan speed. At the layers below the fan speed gradually increases from Initial Fan Speed to Regular Fan Speed. |
| {cool_fan_full_layer} | Regular Fan Speed at Layer | The layer at which the fans spin on regular fan speed. If regular fan speed at height is set, this value is calculated and rounded to a whole number. |
| {cool_min_layer_time} | Minimum Layer Time | The minimum time spent in a layer. This forces the printer to slow down, to at least spend the time set here in one layer. This allows the printed material to cool down properly before printing the next layer. Layers may still take shorter than the minimal layer time if Lift Head is disabled and if the Minimum Speed would otherwise be violated. |
| {cool_min_speed} | Minimum Speed | The minimum print speed, despite slowing down due to the minimum layer time. When the printer would slow down too much, the pressure in the nozzle would be too low and result in bad print quality. |
| {cool_lift_head} | Lift Head | When the minimum speed is hit because of minimum layer time, lift the head away from the print and wait the extra time until the minimum layer time is reached. |
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