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General Guidelines

Wall Thickness

Wall Thickness
In 3D printing, wall thickness refers to the distance between one surface of your model and the opposite sheer surface. A model made using stereolithography has a minimum wall thickness that is dependent on its overall size. As a guide, we suggest that you increase your wall thickness as your design becomes larger in scale. Small-sized objects, where the sum of dimensions is below 200 mm, need a minimum of 1 mm wall thickness. For medium-sized objects with a sum of the x, y, z dimensions between 200 and 400 mm, the minimum wall thickness is 2 mm. For larger objects, a wall thickness of 3 mm is a must. Please be aware that stereolithography parts are mainly used for visual models and not really intended for functional parts.

Surface Quality and Orientation

Many of the characteristics of your 3D print will depend on the Stereolithography process - the technology used to build your design in resin. Because your model will be printed layer-by-layer, the orientation will influence the surface quality and strength. On the left, you can see two examples of the same part built in two different orientations.

The horizontally-printed model clearly shows evidence of the "staircase" effect of the printing process. Its surface will be similar to that of a topographic map. If the model is printed vertically, the surface quality will be better.

Our team will select the best orientation for both the surface quality and strength of your model.

Hollow out Your Model

Hollow out Your Model

If possible, try to hollow out your model. In doing so you can avoid extra charges and shrinkage issues in the thicker sections. You can read about the appropriate wall strength recommendations in the section on wall thickness above.

When you hollow out your model, our production team will need to integrate one or more drainage or escape holes. Usually these are placed at the lowest point(s) of your model once it has been oriented and positioned on the printer platform.

These holes keep the pressure of the liquid resin inside and outside your model at the same level. This will prevent the deformation of your design. Uneven pressure can be compared to a glass of water filled to the brim - the liquid bulges at the edges and as a result the laser scans too much material, causing your part to deform.

Secondly, the holes will be used to remove the excess resin inside the model once the printing process has been finished and your model has been removed from the 3D printer. Your model can then be emptied, cleaned and cured in a UV oven to achieve optimal strength. If the drainage holes weren’t present, the liquid resin would stay trapped.

As the position of the drainage holes depends on the orientation, our specialized production team need to decide where to place the holes. Wherever possible they will place it on a surface which is the least visible or that is easier to fill afterwards.

You can of course already include holes in your design if you want them to be in a specific location but it’s possible that our team may need to add extra holes depending on the print orientation.

Some hollow models require support material on the inside to reinforce the structure. This support structure might not be removed if we cannot access them. For more information take a look at the Internal Support section.


Model with support

The process of Stereolithography takes place in a tank with liquid resin. Therefore, models need to be attached to the supporting platform to prevent them from floating away. This attachment is referred to as "‘support" and is required for any model built using Stereolithography. In addition to keeping the model in place, it also enables to the construction of elements that stick out.

Rule of 30°

Rule of 30°

The diagram shows when a model will need support. The “self-supporting” or “safe” zone does not require any support to print the model. For most models, this area ranges from 150° to 30°. When designing an object you would like to print in resin, keep this safe zone in mind if you are concerned your model will require support to be constructed.

External Support

External Support explanation

To keep your model in place and prevent it from collapsing while being printed, it needs to be supported if it has sections narrower than 30°. For example, in the figure on display, the bottom of the vase needs to be supported because it is narrower than 30°. The rest of design doesn’t need extra support because it is wider than 30°.

Internal Support

Internal Support

The 30° rule also applies to the inside of the model. Any model with an interior section narrower than 30° needs to be supported. For example, in the figure on display, the top part of the vase needs to be supported to prevent it from collapsing during the printing process.

As you might suspect, the removal of internal supports is far more difficult than external supports because they are usually less accessible by hand. There are usually two ways that allow the removal of internal support. The easiest option is to split your hollow design into two parts. This option will result in a design with an obvious seam or so-called split line. The other option is to include a large hole so that the inside can be accessed. This option is not possible with very complex forms, so in that case multiple holes need to be implemented. The diameter of the hole should be 10 mm or above. The larger the hole(s), the higher the chance that the internal support can be removed.

Please be aware that if the accessibility to the internal support is insufficient and can't be removed manually, some support elements may remain attached to your model or traces of support may be visible.

Avoiding Support

Avoiding Support
A great way to avoid support is by applying a fillet, which can solve the issue in most cases. However, be aware that horizontal surfaces will still need support if they stick out more than 2 mm.

Engraved Text and Surface Details

Engraved Text and Surface Details
For engraved text or surface details, we recommend letters with a minimum line thickness of 0.5 mm and a depth of 0.5 mm. For embossed text and surface details, we recommend letters that have a line thickness of at least 0.5 mm and a depth of at least 0.5 mm.

Guidelines for Grouped Models

t is possible to have several individual shells within a single 3D file but we do not recommend this option as it will not allow us to orientate the individual parts in the printer for optimal surface quality. If you want parts with the best possible surface quality, we advise you to upload the parts separately. Since printing interlocking elements like chainmail is not possible in stereolithography, the only option to print all of the shells in one go is making the shells intersecting or connected. Additional design rules and considerations in regards to this can be found below.

O Part, Where Art Thou?

If a single file contains several shells that are not connected, this can cause considerable challenges for our production team. First, identification of all your parts or shells may be difficult. When producing your design, your parts are combined with parts from other orders in the 3D printer. Most printers have a fixed printing volume. To save time and cost, we fill up the machine with as many ordered parts as the build will allow. This virtual 3D layout is then used for printing. Once the printing process is finished, we end up with a lot of different parts. If you have uploaded multiple small, unconnected shells, you can see how it could be very difficult to go back and recognize all the different shells. Therefore, to solve this issue, we only accept models that are well connected. Continue reading below for more details and some important consequences of this option.

Connecting Parts

Connecting Parts

The only way to make sure all the shells in your design stay together and can be processed as one part is to connect the different shells with support beams. It’s important that the parts are well connected and that the connection beams are strong enough. Use a minimum wall thickness of 3 mm, because anything thinner will not be strong enough to support the different parts of your design. 

The heavier/bulkier your individual parts are, the thicker the connecting beams should be. If the connections between the parts are too weak, there is a risk that your parts might get lost. You can prevent bulkier shells by hollowing them out. Just don’t forget to provide several large drainage holes so that the liquid resin on the inside can be removed – otherwise, your part will not become lighter. The part’s wall should be less than 5 mm thick. 

It’s also advisable to have 4 firm connections per shell. The larger the shells, the more difficult they are to connect properly. Parts that are not well connected might get lost during the production process.

Since the printing process uses a supporting structure, we cannot allow nested shells as the outer shell(s) will be filled with the supporting structure on the inside and therefore nearly impossible to remove. 


Once printed, each model will need to be cleaned with a brush and sandblasted to remove the excess powder stuck to your model. This is the same for grouped models but in these cases access to all of the parts is more difficult. Because parts will be connected to each other as well as a container, this may prevent every edge and corner from getting sandblasted. Please be aware that some residual powder might be present when receiving your parts. To clean your parts further, the residual powder can be removed with a brush or compressed air.

Please be aware that grouped models are only offered in natural finish. Because of the limitations stated above for these types of files, a good result cannot be guaranteed. Other finishes can be achieved through various post-processing techniques but will require perfectly cleaned and fully accessible parts, which is not possible for grouped models enclosed in a container immediately upon printing.


The techniques for combining multiple parts into one file as described above will not allow us to orientate the part in the best possible direction for optimal surface quality, to make accurate quality inspections, to 
provide optimal cleaning of each part by our production team nor to pack and protect each individual part in the best way for shipment. Be aware that poorly connected parts may get lost. Choosing this option implies that you accept these conditions and risks.

Design Specifications

Minimum Wall Thickness
1 to 3 mm
Minimum Details
0.5 mm
±0.2% (with a lower limit of ±0.2 mm)
Maximum Size
250 x 250 x 220 mm
0.3 mm
Interlocking or Enclosed Parts?