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* What about the Resin2FDM tool? | * What about the Resin2FDM tool? | ||
** The Resin2FDM tool is a plugin for Blender that allows you to convert resin supports (on pre-supported files) so that they work with FDM printers. However, our experience has been that well-tuned tree supports (see the links above) provide better results with faster print times. This is because resin printing has different support requirements than FDM printers. Since the tool works by thickening the supports so that the FDM slicer can pick them up, you will need to cut most of them to free the model, which creates additional scarring, and with the density of supports generated, it is easy to accidentally cut part of the model. | ** The Resin2FDM tool is a plugin for Blender that allows you to convert resin supports (on pre-supported files) so that they work with FDM printers. However, our experience has been that well-tuned tree supports (see the links above) provide better results with faster print times. This is because resin printing has different support requirements than FDM printers. Since the tool works by thickening the supports so that the FDM slicer can pick them up, you will need to cut most of them to free the model, which creates additional scarring, and with the density of supports generated, it is easy to accidentally cut part of the model. | ||
* How does this differ from the Fat Dragon Games (FDG) support settings? | |||
** Since FDG only does support-free models their settings do not have optimized settings for supports. | |||
===== Bases ===== | ===== Bases ===== | ||
===== Cooling Towers ===== | |||
When printing models with thin sections at the top (think a model with a sword held vertically above their head), a layer of filament may not have time to cool before another layer is added. This can result in the the print head pulling the previous layer out of alignment. The easiest solution to this is a cooling tower. In essence, a cooling tower is a sacrificial object that forces the print head to do something else long enough for the layer to cool. The general process is: | |||
# In your slicer, add a generic box object (often you can do this by right clicking and selecting “add object” or something similar from the context menu). | |||
# Resize the box so that its X and Y dimensions are 5mm, and so that it is the same height as your model. A quick way to set the height is to move it so that it overlaps the model and resize the height until the top of the model no longer pokes through. | |||
# Set the infill for the box to 0%. Make sure that you are only adjusting the infill for the box, not the model. This is often done by right clicking on the box and selecting “infill” from the context menu. | |||
# Set the walls and top and bottom perimeters to 1 loop/layer. Again, make sure that you are adjusting only the settings for the box, not the model. This is often done by choosing the walls/perimeters option from the context menu for the box. | |||
Note that if you are printing multiple models and using the “print by object” setting in your slicer, you will need to create and join a cooling tower for each model so that the cooling tower doesn’t print totally separately (which would defeat the purpose). However, if you are not using “print by object”, the additional models may act as cooling towers (though the chances of print failure go up). | |||
It may seem that this is a waste of filament and time, but in reality it uses very little filament (due to being the thinnest possible shell with no infill) and adds a negligible amount of time to the print. | |||
===== Printing Multiple Models ===== | |||
It may be tempting to fill a print sheet with models, but this has the major drawback that if one model fails, it will almost always ruin the rest of the sheet. Since FDM printing tends to be slow, this can mean that you have a 10+ hour print fail at 90% completion. | |||
A much better approach is to use the “print by object” setting in your slicer. This setting allows the slicer to calculate where to position the models on the sheet so that it can print one, then move and print another, and so on. Since it has to leave sufficient room for the print head, this will greatly reduce the capacity of a print sheet, but the benefit is that if one model has a failure, it won’t impact the previously printed models (and maybe not ever the subsequent models). | |||
==== Model Creators ==== | ==== Model Creators ==== | ||
Revision as of 02:21, 24 July 2025
Welcome to the wiki!
This knowledge base is intended to provide support for 3D printing miniatures with FDM printers. This is a community contributed resource of information that will continue to be built and refined as more people provide their own recommendations and experiences. There are also many great resources elsewhere that this site will also link to and reference.
Guidelines
Due to the rapidly changing 3D printing ecosystem all advise here should be considered editorial based on personal experience and a starting point for anyone wanting to get started 3D printing miniatures with an FDM printer. Some content may be considered best practices and other content may represent advice that has risks and should be used with caution. At any time content on this site may be removed or revised. This site should be considered a family friendly site so things should be kept at a PG rating and questionable content will be removed.
FDM 3D Printing Basics
General printing guidance that should be considered first steps when getting started with FDM 3D printing or when troubleshooting printing issues.
Filaments
Recommended filaments, those to stay away from, and general filament maintenance guidelines.
Calibration
How to calibrate FDM printers & filaments.
Tools
General tool recommendations.
Printing Miniatures
Guides on printing miniatures on FDM printers.
Printing Tips & Guides
General printing tips and guides for printing miniatures via FDM.
Model Orientation
One of the first decisions you make when preparing a model for printing is what the orientation will be. It may be tempting to orient it vertically, with its feet on the ground, but this will often have suboptimal results. Instead, you will generally orient the model so that it is leaned back. This allows you to take advantage of the greater detail on the Z axis and to have supports on the back of the model, so any support scarring is less noticeable (all supports leave at least a little scarring).
Other considerations are to minimize the amount of supports needed, to minimize the appearance of layer lines, and to align the layers for stronger parts.
If you are unsure of how you should orient your model and it came with a pre-supported file, you can check that file for the orientation. Note that pre-supported files are generally not suitable for FDM printers since the supports are designed for resin printing.
Supports
How you support your model is a major factor for how well your print will turn out. FDM printers cannot print directly onto thin air, so anything with enough of an overhang will need supports. Below you will find some supports settings that you can use:
- timnolte supports v5 (current)
- timnolte supports v4
Common questions:
- What about the Resin2FDM tool?
- The Resin2FDM tool is a plugin for Blender that allows you to convert resin supports (on pre-supported files) so that they work with FDM printers. However, our experience has been that well-tuned tree supports (see the links above) provide better results with faster print times. This is because resin printing has different support requirements than FDM printers. Since the tool works by thickening the supports so that the FDM slicer can pick them up, you will need to cut most of them to free the model, which creates additional scarring, and with the density of supports generated, it is easy to accidentally cut part of the model.
- How does this differ from the Fat Dragon Games (FDG) support settings?
- Since FDG only does support-free models their settings do not have optimized settings for supports.
Bases
Cooling Towers
When printing models with thin sections at the top (think a model with a sword held vertically above their head), a layer of filament may not have time to cool before another layer is added. This can result in the the print head pulling the previous layer out of alignment. The easiest solution to this is a cooling tower. In essence, a cooling tower is a sacrificial object that forces the print head to do something else long enough for the layer to cool. The general process is:
- In your slicer, add a generic box object (often you can do this by right clicking and selecting “add object” or something similar from the context menu).
- Resize the box so that its X and Y dimensions are 5mm, and so that it is the same height as your model. A quick way to set the height is to move it so that it overlaps the model and resize the height until the top of the model no longer pokes through.
- Set the infill for the box to 0%. Make sure that you are only adjusting the infill for the box, not the model. This is often done by right clicking on the box and selecting “infill” from the context menu.
- Set the walls and top and bottom perimeters to 1 loop/layer. Again, make sure that you are adjusting only the settings for the box, not the model. This is often done by choosing the walls/perimeters option from the context menu for the box.
Note that if you are printing multiple models and using the “print by object” setting in your slicer, you will need to create and join a cooling tower for each model so that the cooling tower doesn’t print totally separately (which would defeat the purpose). However, if you are not using “print by object”, the additional models may act as cooling towers (though the chances of print failure go up).
It may seem that this is a waste of filament and time, but in reality it uses very little filament (due to being the thinnest possible shell with no infill) and adds a negligible amount of time to the print.
Printing Multiple Models
It may be tempting to fill a print sheet with models, but this has the major drawback that if one model fails, it will almost always ruin the rest of the sheet. Since FDM printing tends to be slow, this can mean that you have a 10+ hour print fail at 90% completion.
A much better approach is to use the “print by object” setting in your slicer. This setting allows the slicer to calculate where to position the models on the sheet so that it can print one, then move and print another, and so on. Since it has to leave sufficient room for the print head, this will greatly reduce the capacity of a print sheet, but the benefit is that if one model has a failure, it won’t impact the previously printed models (and maybe not ever the subsequent models).
Model Creators
FDM Miniatures
Recommended model creators specifically designed for FDM printing, and any tips for printing their models.
Non-FDM Miniatures
Model creators that are not specifically designed for FDM printing, and any tips for attempting to print their models.
Printing Terrain
Guides on printing terrain on FDM printers.
Printer Model Tips
General guidelines and tips for specific FDM printers.
Model Prints Galleries
A gallery of prints done on FDM printers.