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Slic3r Manual

Simple Mode

Slic3r has two modes of operation, Simple and Expert. These may be chosen from the Preferences window (found under the File menu).

[ht] Preferences.

Simple mode offers a reduced set of options, enough for the beginner to get started with. Expert mode give more control over how Slic3r produces the G-code and will be looked at later.

The Print Settings tab provides the opportunity to change settings related to the actual print. Whereas the other tabs are changed rarely, the settings on this tab will be modified regularly, possibly for each model printed.

[ht] Simple Mode: Print Settings.

General.

Layer height is the thickness of each layer, and it is the step along the vertical axis taken before extruding a new layer atop the previous one. There are several factors that influence how high each layer should be:

Perimeters defines the minimum number of vertical shells (i.e. walls) a print will have. Unless the model requires single width walls it is generally recommended to have a minimum of two perimeters as this gives some insurance that if a section of the perimeter is not printed correctly then the second perimeter will help cover it.

The upper and lowermost layers that sandwich the model are filled with a Solid layers pattern. For the bottom layers the important factor to consider is how the surface will look should there be a mistake whilst laying down the first layer, and for this reason it is recommended to have at least two bottom layers.

A similar consideration is required for the top layers. Because the intermediate layers are likely to be filled with a pattern set less than 100% then the covering layers will have to bridge this pattern and this can require more than one pass to cover completely.

An example of insufficient top layers.

An example of insufficient top layers.

Another tip to consider: Setting the top solid layer to zero, and setting the infill also to zero, will result in a hollow receptacle, ideal for turning models into vases1 for example. Here manipulating the settings within Slic3r can be used to generate different kinds of prints, and not only be used to control surface accuracy.

Creating a vase from a solid model.

Creating a vase from a solid model.

Infill.

Fill density is defined on a scale of between 0 and 1, where 1 is 100% and 0.4 would be 40%. For the majority of cases it makes no sense to 100% fill the model with plastic, this would be a waste of material and take a long time. Instead, most models can be filled with less material which is then sandwiched between layers filled at 100% (see Solid layers above).

A density value of 0.4 is enough to give almost all models good mechanical strength. A value of 0.2 is usually the minimum required to support flat ceilings.

Slic3r offers several fill patterns which will be discussed in more depth in section - Infill Choices. Choosing a Fill pattern will depend on the kind of model, the desired structural strength, print speed, and personal taste. The more exotic fill methods are usually too slow and unnecessarily complex for most use cases, and so most of the time the infill pattern is either rectilinear, line, or honeycomb. Honeycomb gives the most strength but is slower than both rectilinear or line.

Support material.

Printing a model from the bottom up, as with FDM, means that any significant overhangs will be printed in the air, and most likely droop or not print correctly. Choosing support material (Generate support material) will add additional structures around the model which will build up to then support the overhanging part. The Pattern spacing option determines how dense the support material is printed.

An example of an object printed with support material.

An example of an object printed with support material.

Tip: It is sometimes worth considering altering the orientation of the model in order to possibly reduce overhangs.

Raft layers will add additional layers underneath the model and stems from the early days of 3D printing. It can help with prints without a heated bed, or where the bed is not very flat, but it is usually not required and is not recommended. The raft also requires post-processing to remove it.

Speed.

In simple mode there are only three speed settings to consider:

Brim.

Brim width is used to add more perimeters to the first layer, as a base flange, in order to provide more surface area for the print to stick to the bed with in order to reduce warping (see §). The brim is then cut away once the print is finished and removed from the bed.

An example of brim.

An example of brim.

Sequential Printing.

This feature allows to compose a plate of objects but have the printer complete each one individually before going back to Z = 0 and starting with the next one. See the section about Sequential Printing in the Advanced Topics chapter.

Filament Settings

The Filament Settings will normally be used infrequently, for example on receipt of a new roll of filament.

Simple Mode: Filament Settings.

Simple Mode: Filament Settings.

Filament.

The Diameter setting will already have been filled from the value given during the wizard (see p.), but can be updated here.

The Extrusion multiplier setting allows the fine tuning of the extrusion flow rate, and is is given as a factor, e.g. 1 means 100%, 1.5 would mean 150%. Whilst the value should ideally be set in the firmware it can be useful to test slight changes to the rate by altering this value. It varies the amount of plastic proportionally and should be changed in very small steps (e.g. +/- 0.05) as the effects are very visible.

Temperature.

These values are also filled from the wizard, but here the opportunity exists to set the temperature for the first layer (see p.).

Printer Settings

The Printer Settings will be updated the least, unless Slic3r is going to be used for many printers, for example, in a 3D printer farm.

Simple Mode: Printer Settings.

Simple Mode: Printer Settings.

Size and coordinates.

The Bed size setting is taken from the wizard (see p.) and is only used for previewing the model in the plater.

The Print center is the point around which the print will be centered. A Bed size of 200mmx200mm and a Print center of 100mmx100mm would sit the print in the middle. Should it be desired to print away from the center, because of a scratch in the glass perhaps, then this option should be used.

Z offset can be used to compensate for an incorrectly calibrated Z end-stop. If the nozzle stops slightly too far from the bed, then adding a negative value will offset all layers by that amount. The correct solution however is to fix the end-stop itself.

The optimal Z endstop position is where the nozzle tip barely touches the surface of the bed when homed. A sheet of paper makes a good gauge for this very small distance. It is not recommended to use this setting to try and improve layer adhesion, by "squashing" the bottom layer into the bed, instead look at the suggestions in section .

Firmware.

As selected in the wizard (see p.), G-code flavour defines the dialect of G-code generated.

Extruder.

Nozzle diameter was defined in the wizard (see p.).

Retraction.

Unless the material being extruded has a very high viscosity it may ooze between extrusions due to gravity. This can be remedied by actively retracting the filament between extrusions. Setting the Length parameter to a positive value will cause the filament to be reversed by that many millimeters before travel. The retraction will then be compensated for by the same amount after the travel move, before starting the new extrusion path.

A value of between 1 and 2mm is usually recommended. Bowden extruders may need up to 4 or 5mm due to the hysteresis introduced by the tube. Setting the Lift Z parameter to a positive value will raise the entire extruder on the Z axis by that many millimeters during each travel. This can be useful to ensure the nozzle will not catch on any already laid filament, however it is usually not necessary and will slow the print speed. A value of 0.1mm is usually sufficient.

Start, End and Layer Chance G-codes.

Custom G-code commands can be run before a print starts and after a print finishes.

Placeholders can be inserted in the G-code commands2. For example [next_extruder] would return the index of the next extruder.

The RepRap wiki is a good resource to learn about the variety of G-codes available: http://reprap.org/wiki/G-code.

Note: Be sure to check that a given G-code is valid for your firmware.

The codes specified in Start G-code are inserted at the beginning of the output file, directly after the temperature control commands for extruder and bed. Note that if temperature control commands are specified (M104 and M190) then these will replace the temperature G-codes introduced by the Filament settings.

Some common G-codes to use before the print starts are:

Some common G-codes to use after the print ends are:


  1. http://slic3r.org/blog/tip-printing-vases

  2. https://github.com/alexrj/Slic3r/wiki/FAQ#what-placeholders-can-i-use-in-custom-g-code