In simple mode for beginners, you can pick the desired quality and the material. If you don’t own a 3D printer yet, you can have your models printed via i.materialise.Īstroprint has a very user-friendly interface. In case you’re experiencing problems during the 3D printing process, it is always possible to connect Astroprint to 3DPrintCloud to fix the defects. If you’re struggling to find the desired 3D object, you can always contact the 3D modeling professionals. In addition to that, you can set up the printing queue. In Astroprint, it is possible to download models from one of the integrated web-services, like the search engine Yeggi, or from the 3D archives, such as CGTrader and Thingiverse. In case the list of compatible devices lacks the one you need, it can be added on request. The program is compatible with the majority of printers.
It is possible to operate the printer and monitor the printing process from any device connected to the Internet. 3D printing process is realized through the dedicated Astrobox device, which can be connected to the 3D printer via USB.
The software is suitable for both professionals and beginners.Īstroprint is another cloud-based platform. More advanced users can enter their layer settings as JSON code. When the work is done, it is possible to view the G-code in the “Toolpath Viewer” application. In addition to that, the software allows you to calculate the estimated price of the printing.Ĭharacteristics: 3DPrinterOS has one particular feature that is worth mentioning. It is possible to choose between different levels of skill and complexity: “Simple”, “Advanced” and “Expert”. “Cloud Slicer” and “Slicer 2” are pretty much the same in terms of their functions. Three different 3D slicing applications are integrated into the software: the standard 3D slicer programs “Cloud Slicer” and “Slicer 2” and a dedicated “Makerbot Slicer”. 3DPrinterOS works with virtually any 3D printer, but if you’re struggling to find the one you need, the developers can add it to the list on request.
In addition to slicing, it is possible to repair your mesh, download models from 3D libraries and print them, even using industrial machines. It is quite easy to use this program, you simply connect your 3D printer to your computer and host it via the Internet or special desktop software. This means that paying a little extra is completely worth it.ģDPrinterOS is a cloud-based service which has all the important components which are crucial for 3D printing.
This feature allows users to print several different 3D models simultaneously.Ĭharacteristics: Overall, Simplif圓D is a highly advanced software for 3D printing that can satisfy all of your needs. There can be several “Processes” in one single printing task - different models or parts of the models with varying settings, such as wall thickness or infilling. This software offers a ton of settings that you can play around with: extruders, layer control, various infill methods, temperature and cooling settings, even G-code and scripts can be edited. It is possible to quickly and conveniently edit your 3D models in the program. If you happen to have a printer that is not on the list, you can manually adapt the program. Simplif圓D supports most desktop 3D printers on the market, regardless of the number of extruders and other construction features. Now let’s take a look at the most popular 3D slicers. In this article you can learn about some slicer softwares, find links for downloading and informational videos.Īt the end of the article you can take a peek at a 3D slicers overview, which will without doubt help you find the one program that will match your needs.
For this reason there are quite a few different 3D slicers to choose from, both free and pricy. In many cases, the quality of 3D models depends even more on the slicer than on the 3D printer itself. The slicer software creates the G-code, which reflects all of the printing parameters. This is exactly what 3D slicers do: they slice objects into layers, which are then printed out as a 3D model. The objects should be divided into layers - translated into G-code - so the printer can recognise the description and print out the model. In order to print a 3D object, you first need to create a mathematical description of the model and then this information needs to be be transferred to the printer.