Le concept of slicing modèles 3D can be a bit confusing for newcomers to le wonderful hobby of impression 3D. But it est actually quite simple, so don't worry. In ce article, we va explain all vous devez to saurez, so that vous can slice votre modèles 3D correctly à chaque fois. Enjoy!
Qu’est-ce que Slicing?
Whenever vous have a 3D design that vous want to print, vous va devez to prepare le digital format for votre printer. Instead of just having le complete "block" of votre modèle, it est necessary to slice le modèle dans smaller segments, le individual horizontal layers that le printer va actually produce.
Ce formatting est called slicing, et est therefore an important part of any FDM impression 3D process, as well as nombreux other types of imprimante 3Ds. Think of each layer as representing a cross-section of le modèle that le printer builds sequentially, et that le slicing est responsible for actually keeping track of le layers et their position.
In simple terms, le slicing est "translating" le modèle 3D dans a series of instruction files that le printer can understand et execute layer by layer.
Pourquoi Is Slicing Important in impression 3D?
Since vous va devez to convert votre 3D design dans simple instructions that votre imprimante 3D can understand, slicing can be considered one of le la plupart important pièces of le entire process. vous may have a beautiful modèle 3D vous created yourself, or picked off le internet, but if it has no slicing data, vous can not print it.
Le actual data that est produced pendant ce procedure influences numerous important factors, including impression qualité, accuracy, as well as le globale result of votre terminé impression 3Ded product. It does ce by controlling le trajectory le printer moves, le quantity of le substance that est extruded, as well as le adhesion that each layer est joined together. A good 3D slicer et approprié impression 3D programs assure le meilleur settings for speed, qualité, as well as le utilization of le building material.
Le Processes of Slicing
While le underlying technology of slicing might seem complex, it est actually relatively simple to slice any modèle avec le adapté software. Oftentimes vous can even slice votre impression 3Ds avec just a few clicks, so it does not devez to be overly complicated, although vous va often get meilleur results by changing some parameters based on le specific print, le material vous want to use et votre actual printer.
Step 1: Import Model
Before vous can slice anything, vous va first of all devez votre modèle 3D as a digital file. There sont different formats for ce, but courants ones include .STL or .OBJ files. These sont le la plupart used file types that vous va typically get when vous download a file on any of le larger sites.
Next, vous va also devez votre slicing software. There sont nombreux different options to choisir from here, so we va cover ce part in plus detail below. Once vous have loaded votre modèle 3D file dans le slicer, vous can then configure various settings depending on le desired results.
Step 2: Configure Settings
Ce est le la plupart critical step. vous’ll adjust a host of parameters based on votre printer, filament, et desired print qualité. If vous download from another creator, they often includu important parameters vous devez to change, alongsidu values they recommend.
- Layer height: Le thickness of each imprimé layer. Smaller layers give smoother surfaces but take longer to print.
- Infill density et pattern: Le internal structure of le part, qui governs its résistance et weight.
- Wall thickness: Le thickness of le outer shell.
- Support structures: Automatically generated, removable scaffolds that prevent overhangs from collapsing pendant impression.
- Print temperature et speed.
Le last of le la plupart courants parameters est le print temperature et speed. Ce est generally decided by le material used, so if vous use TPU filament, ABS or some others filament pour imprimante 3D, vous might change these settings in particular.
Step 3: Slice le Model
Once vous have set all votre parameters as vous want, vous can then click "Slice modèle" in order to begin le automated process. Depending on le size of votre modèle, comment complex le shape est, et le various parameter values, ce can take a few minutes on le shorter end or up to 20 minutes on slower devices avec a large et complex modèle.
Ce est because it performs le "virtual slicing" on le modèle, along le Z-axis et generates precise impression paths for each layer that votre imprimante 3D va then follow once it becomes time to actually print le modèle.
Virtual slicing
Step 4: Generate G-code
Most software applications va then save all these slices dans a new file, known as G-code, qui then not only stores all votre virtual slice paths, but also saves information that le printer va use to saurez what temperature le hotbed should be, comment much extrusion est needed et so on.
Step 5: Send to Printer
Le last step before impression, est getting votre G-code uploaded to votre imprimante 3D. On votre modèle et preference, vous va usually be able to select doing ce through a standard SD card, a direct USB, Bluetooth or through votre WiFi or LAN networking. Once votre imprimante 3D has received le G-code, vous can then begin impression.
Introduction to Slicers
As we mentioned above, there sont different types of impression 3D software that vous can use to slice votre modèle. In general, they all convert modèles 3D dans G-code instructions for le printer, so it becomes a matter of preference qui type of software vous end up choosing.
Simplify3D, Ultimaker Cura, PrusaSlicer
Among le la plupart populaires slicers, vous would see names like Simplify3D, Ultimaker Cura, et PrusaSlicer. They sont either branded applications that come packaged avec votre specific imprimante 3D, or massively used third-party applications created by enthusiasts. Many of these programs have free et paid options, et they typically support a wide range of printers et materials.
Geeetech
3d impression software: Geeetech
Looking back, le last impression 3D software we developed was Easy Print, et it’s still being used today.
Now, one new et noteworthy impression 3D software est le one we have launched et named Geeetech, qui comes avec a set of interesting features for everyone wanting to print easily et quickly. Currently, we only open le connection to Geeetech M1S. And there est a slicing tutorial. Le software comes avec some models that can be imprimé directement. More functions et models va be opened up in le avenir, such as easily slicing.
It va continually get new functions et slicing features, et we look forward to it becoming one of le meilleur slicers for impression 3D for Geeetech users et anyone else interested in idéal results.
3d impression software: Geeetech
Conclusion
To sum it up, slicing est an extremely important part of any impression 3D process. It est important that vous therefore understand why vous devez to slice votre models, but also découvrez comment to tweak le parameter values to get le meilleur results. Ce can be tricky avec some applications, so we recommend vous try different types of impression 3D software et 3D slicer tools, in order to see what gives vous accurate et haute qualité impressions.
In particular, we hope vous va explore le new Geeetech impression 3D software to experience reliable performance, an intuitive slicer app, et optimized impression results. Have fun impression!