![]() Here, we have the filament profile settings, i.e., filament diameter, melting point, density, manufacturer, price, etc. This setting informs the slicer how many extruders your printer has, the nozzle diameter, maximum temperature supported by the hotend design, distance between the nozzles in dual extruder printers, etc. Here, we have things like the kind of mechanical movement system of your printer (delta, cartesian, robot arm, etc.), the dimensions of the print area, and what indents from the edges are acceptable, 2. This informs the slicer what kind of movement to expect from your printer. With some slicers, you can even adjust the values of movement speeds, accelerations, jerks (jerk), retracts (thread rollbacks), which will allow such a slicer to calculate the time to print more correctly, among others. On the other hand, professional slicers will require you to specify which G-code language the control board firmware understands. With regular slicers, you can select only the printer model. The number of available settings varies depending on the slicer. Your Printer Settingsīy this term, we mean not only the “hardware” of the printer, but also its control electronics. However, sometimes they allow the user to correctly set the units of measurement, port connection speeds, visualization of slicing results, model display and other useful options. ![]() These settings have little to no effect on print quality. ![]() The common settings include program language, preferences for actions and process automation, design colors, sequences upon completion of work, operations over data and settings, as well as legal and marketing information blocks. These are determined by the slicer developer. Apart from this, they six have standard settings: 1. However, generally, all slicers convert 3D model files into G-code machine control language. The settings are related to the printer, model, material, print profile, extruder(s), additional options, scripts and macros. To get quality models through 3D printing, there are some slicer settings to be considered. In FDM technology, Simplif圓D seems like the only paid program. Learn how to achieve acceptable printing results with standard tools first, and only then proceed to more advanced options.ģD slicers are also available as paid or free versions. Some differences can be found in the quality of slicing, interfaces, number of available settings, resource intensity of the program, speed and additional services, which, at times, are marketing tricks. Finally, the basic principles of operation and the results of slicing are largely identical for all slicing programs. You do this by setting a number of specific parameters.Īlso, the benefits that the best 3D slicers offer may not be practical for beginners. First, set your printer to work with the included slicer. Therefore, if you are a beginner, do not rush to use third-party slicers, even if they are very popular. This is usually done to make it easier for beginners to get started printing with the 3D printers. If you have already bought a printer and a slicer is included with it, the manufacturer is likely to have filled the program with the necessary profiles and settings. ![]() For example, the IdeaMaker slicer of Raise3D printers can work with any compatible printer. Others have their own software, which is usually specially designed for their equipment. Some manufacturers use well-known universal slicers, supplementing them with specialized profiles of their equipment. On the other hand, universal ones have multiple settings and are designed for a wide range of compatible devices.īefore choosing a 3D printer, among other things, ask the seller which slicer is included in the package. Generally, specialized ones are developed for one technology, brand or model line of printers. Slicers are divided into two main types: universal and specialized (corporate). ![]()
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