SLA Print

Configuration options for a configuration file in the sla_print directory. No examples provided, as there are not currently any built-in profiles for SLA printers.

Default SLA print profile

Default print profile associated with the current printer profile. On selection of the current printer profile, this print profile will be activated.

Key: default_sla_print_profile

Type: String

Default ``

Example

Faded layers

Number of the layers needed for the exposure time fade from initial exposure time to the exposure time

Key: faded_layers

Type: Int

Min: 3

Max: 20

Default 10

Example

"faded_layers": 8

Filename format

User can self-define the project file name when export

Key: filename_format

Type: String

Default {input_filename_base}_{filament_type[0]}_{print_time}.gcode

Example

Hollowing closing distance

Hollowing is done in two steps: first, an imaginary interior is calculated deeper (offset plus the closing distance) in the object and then it’s inflated back to the specified offset. A greater closing distance makes the interior more rounded. At zero, the interior will resemble the exterior the most.

Key: hollowing_closing_distance

Type: Float

Min: 0

Max: 10

Default 2.0

Example

"hollowing_closing_distance": 1.92

Enable hollowing

Hollow out a model to have an empty interior

Key: hollowing_enable

Type: Bool

Default false

Example

"hollowing_enable": false

Hollowed model wall thickness

Minimum wall thickness of a hollowed model.

Key: hollowing_min_thickness

Type: Float

Min: 1

Max: 10

Default 3.0

Example

"hollowing_min_thickness": 3.34

Hollowing accuracy

Performance vs accuracy of calculation. Lower values may produce unwanted artifacts.

Key: hollowing_quality

Type: Float

Min: 0

Max: 1

Default 0.5

Example

"hollowing_quality": 0.56

Layer height

Slicing height for each layer. Smaller layer height means more accurate and more printing time

Key: layer_height

Type: Float

Min: 0

Default 0.2

Example

"layer_height": 0.1

Pad around object

Create pad around object and ignore the support elevation

Key: pad_around_object

Type: Bool

Default false

Example

"pad_around_object": true

Pad around object everywhere

Force pad around object everywhere

Key: pad_around_object_everywhere

Type: Bool

Default false

Example

"pad_around_object_everywhere": true

Pad brim size

How far should the pad extend around the contained geometry

Key: pad_brim_size

Type: Float

Min: 0

Max: 30

Default 1.6

Example

"pad_brim_size": 1.55

Use pad

Add a pad underneath the supported model

Key: pad_enable

Type: Bool

Default true

Example

"pad_enable": true

Max merge distance

Some objects can get along with a few smaller pads instead of a single big one. This parameter defines how far the center of two smaller pads should be. If they are closer, they will get merged into one pad.

Key: pad_max_merge_distance

Type: Float

Min: 0

Default 50.0

Example

"pad_max_merge_distance": 50

Pad object connector penetration

How much should the tiny connectors penetrate into the model body.

Key: pad_object_connector_penetration

Type: Float

Min: 0

Default 0.3

Example

"pad_object_connector_penetration": 0.26

Pad object connector stride

Distance between two connector sticks which connect the object and the generated pad.

Key: pad_object_connector_stride

Type: Float

Min: 0

Default 10

Example

"pad_object_connector_stride": 11.02

Pad object connector width

Width of the connector sticks which connect the object and the generated pad.

Key: pad_object_connector_width

Type: Float

Min: 0

Default 0.5

Example

"pad_object_connector_width": 0.39

Pad object gap

The gap between the object bottom and the generated pad in zero elevation mode.

Key: pad_object_gap

Type: Float

Min: 0

Max: 10

Default 1

Example

"pad_object_gap": 0.76

Pad wall height

Defines the pad cavity depth. Set to zero to disable the cavity. Be careful when enabling this feature, as some resins may produce an extreme suction effect inside the cavity, which makes peeling the print off the vat foil difficult.

Key: pad_wall_height

Type: Float

Min: 0

Max: 30

Default 0.0

Example

"pad_wall_height": 0

Pad wall slope

The slope of the pad wall relative to the bed plane. 90 degrees means straight walls.

Key: pad_wall_slope

Type: Float

Min: 45

Max: 90

Default 90.0

Example

"pad_wall_slope": 45

Pad wall thickness

The thickness of the pad and its optional cavity walls.

Key: pad_wall_thickness

Type: Float

Min: 0

Max: 30

Default 2.0

Example

"pad_wall_thickness": 1

Slice gap closing radius

Cracks smaller than 2x gap closing radius are being filled during the triangle mesh slicing. The gap closing operation may reduce the final print resolution, therefore it is advisable to keep the value reasonably low.

Key: slice_closing_radius

Type: Float

Min: 0

Default 0.049

Example

"slice_closing_radius": 0.005

Support base diameter

Diameter in mm of the pillar base

Key: support_base_diameter

Type: Float

Min: 0

Max: 30

Default 4.0

Example

"support_base_diameter": 3

Support base height

The height of the pillar base cone

Key: support_base_height

Type: Float

Min: 0

Default 1.0

Example

"support_base_height": 1

Support base safety distance

The minimum distance of the pillar base from the model in mm. Makes sense in zero elevation mode where a gap according to this parameter is inserted between the model and the pad.

Key: support_base_safety_distance

Type: Float

Min: 0

Max: 10

Default 1

Example

"support_base_safety_distance": 1.2

Support on build plate only

Only create support if it lies on a build plate. Don’t create support on a print.

Key: support_buildplate_only

Type: Bool

Default false

Example

"support_buildplate_only": false

Critical angle

The default angle for connecting support sticks and junctions.

Key: support_critical_angle

Type: Float

Min: 0

Max: 90

Default 45

Example

"support_critical_angle": 45

Pinhead front diameter

Diameter of the pointing side of the head

Key: support_head_front_diameter

Type: Float

Min: 0

Default 0.4

Example

"support_head_front_diameter": 0.6

Head penetration

How much the pinhead has to penetrate the model surface

Key: support_head_penetration

Type: Float

Min: 0

Default 0.2

Example

"support_head_penetration": 0.4

Pinhead width

Width from the back sphere center to the front sphere center

Key: support_head_width

Type: Float

Min: 0

Max: 20

Default 1.0

Example

"support_head_width": 2

Max bridge length

The max length of a bridge

Key: support_max_bridge_length

Type: Float

Min: 0

Default 15.0

Example

"support_max_bridge_length": 10

Max bridges on a pillar

Maximum number of bridges that can be placed on a pillar. Bridges hold support point pinheads and connect to pillars as small branches.

Key: support_max_bridges_on_pillar

Type: Int

Min: 0

Max: 50

Default 3

Example

"support_max_bridges_on_pillar": 2

Max pillar linking distance

The max distance of two pillars to get linked with each other. A zero value will prohibit pillar cascading.

Key: support_max_pillar_link_distance

Type: Float

Min: 0

Default 10.0

Example

"support_max_pillar_link_distance": 11.09

Object elevation

How much the supports should lift up the supported object. If “Pad around object” is enabled, this value is ignored.

Key: support_object_elevation

Type: Float

Min: 0

Max: 150

Default 5.0

Example

"support_object_elevation": 5

Controls the bridge type between two neighboring pillars. Can be zig-zag, cross (double zig-zag) or dynamic which will automatically switch between the first two depending on the distance of the two pillars.

[No documentation provided]

Key: support_pillar_connection_mode

Type: Enum

Default dynamic

Enum values:

Example

"support_pillar_connection_mode": "zigzag"

Pillar diameter

Diameter in mm of the support pillars

Key: support_pillar_diameter

Type: Float

Min: 0

Max: 15

Default 1.0

Example

"support_pillar_diameter": 1

Pillar widening factor

Merging bridges or pillars into another pillars can increase the radius. Zero means no increase, one means full increase. The exact amount of increase is unspecified and canchange in the future.

Key: support_pillar_widening_factor

Type: Float

Min: 0

Max: 1

Default 0.0

Example

"support_pillar_widening_factor": 0

Support points density

This is a relative measure of support points density.

Key: support_points_density_relative

Type: Int

Min: 0

Default 100

Example

"support_points_density_relative": 83

Minimal distance of the support points

No support points will be placed closer than this threshold.

Key: support_points_minimal_distance

Type: Float

Min: 0

Default 1.0

Example

"support_points_minimal_distance": 1.08

Small pillar diameter percent

The percentage of smaller pillars compared to the normal pillar diameter which are used in problematic areas where a normal pilla cannot fit.

Key: support_small_pillar_diameter_percent

Type: Percent

Min: 1

Max: 100

Default 50

Example

"support_small_pillar_diameter_percent": "60%"

Generate supports

Generate supports for the models

Key: supports_enable

Type: Bool

Default true

Example

"supports_enable": true