While the last version of MeshLab was released back in 2016, this program still stands out as a free STL file editor and repair tool. All in all, when you need 3D printing software to repair and clean up an ugly 3D print model, MeshLab is a solid option. Free 3D printing software helps you design and slice your objects without a cost. A free 3D printing software is a program that helps you design, slice or process your STL files to produce a 3D printed object without any cost. This page aims to give you a list of 3D printing software without charge.
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- 3dimmaker 1 0 16 – 3d Model Printing Software Download
- Top 16 Free 3D Printer Software for Beginners in 2018
The software suites listed on this page are used extensively in the world of 3D printing. Whether you are just starting out with CAD design, or are an experienced designer looking to take things to the next level, you'll find something to suit your needs on this page. Ultimaker Cura is free, easy-to-use 3D printing software trusted by millions of users. Fine-tune your 3D model with 400+ settings for the best slicing and printing results.
3D printing can help you create a three-dimensional object by computer and 3D printer. However, it may sound a little difficult for beginners to use 3D printers. This article will introduce 16 free 3D printer software to help beginners use their 3D printer much easily. Learn about: How to slice 3d STL file and 3d print Iron Man?
3dimmaker 1 0 16 – 3d Model Printing Software Free
1. Ultimaker Cura - versatile 3D Printer Software
Ultimaker Cura 3D is a slicing software for 3D printers, it can create a 3D model and slice it into layers, as G-Code, which a 3D printer can understand. Cura 3D is easy to use and you just need 3 steps before printing. Create a model first and then export your 3D files as STL or OBJ formats, these files will be imported, sliced and outputted as G-Code so that the 3D printer can read and follow. You can also set quality, material, speed,cooling and infill in Cura by yourself. Cura 3D is a fully open source software and can be used with most 3D printers. It supports for Windows, Mac and Linux.
2. TinkerCAD - useful 3D Printer Software
Unlike Cura, TinkerCAD is an online computer-aided design software for 3D printing. You can directly access the browser-based app after creating an account on its website. TinkerCAD offers pre-defined shapes and geometric structures, so you can create your models just by dragging and dropping the box to the WorkPlane and adjusting the length, height and width. TinkerCAD is an easy tool for beginners to start up 3D printing.
3. 123D Catch - easy-to-use Free 3D Printer Software
The 123D Catch APP can be used in your smartphones (both iOS and Android operating system), which means that you take photos within your phone and the 123D Catch can turn your photography into a 3D model. This is much convenient and funny for beginners to learn 3D printing. What’s more, you can transfer your photos from digital camera to 123D Catch on your computer and print them out a high-quality product.
4. 3D Slash - 3D printer software for free
3D Slash is much different from other 3D printing softwares, it is also a logo and a 3D text maker. It means that you can turn your logo into a 3D model or import your text to export 3D text. 3D Slash is easy to use and suitable for people of all ages, you can design a 3D model by using a simple building-block concept, which just like a modern stone-cutter. As its user-friendly experience, 3D Slash is a wonderful software to get you started with 3D printing.
5. 3D Tin - Good-to-use 3d printer
3D Tin is an online 3D printing software like TinkerCAD, which is intuitive and easy-to -use. All you need is a Firefox or Chrome web browser enabled with WebGL. It’s a perfect 3D printing software for beginners. What you should do is choosing 3D templates on the Internet and adding them to your sketch, which will be stored in the cloud and freely accessible, and can be out-printed in STL and OBJ file formats.
6. SketchUp - 3d modeler
SketchUp is an ideal 3D printing software to design complex 3D print models for beginners with a user-friendly interface and relatively flat learning curve. 3D Warehouse of SketchUp is a huge library of 3D templates which is uploaded by users. You can choose one and add it on your SketchUp, which is the easiest way to print a 3D object. What&rsquo's more, SketchUp provides free tutorials which can help you develop into an intermediate or advanced engineer form a beginner.
7. FreeCAD - 3d slicer software
3dimmaker 1 0 16 – 3d Model Printing Software Downloads
FreeCAD is a free and open-source general-purpose parametric 3D CAD modeler and a building information modeling software which is supported by FEM (finite-element-method). This program can be used interactively and its functionality can be accessed and extended using the Python programming language. FreeCAD is a great starting point for mechanical engineers who are new to the 3D modeling world.
8. CraftWare - 3d printing cad software
CraftWare is a 3D printer slicer software which is developed by CraftUnique to support its CraftBot 3D printer. And it can be used for many other 3D printers that accept G-Code. CraftWare is fast and easy-to-use, it allows users to see printing process layer by layer from any angle and modify or delete any places before printing. A clean and simple user interface, as well as big and colorful buttons on the left side, make CraftWare one of the most user-friendly 3D printing software.
9. Sculptris - 3d printer software
Sculptris is a virtual sculpting 3D printing software with a core emphasis on the concept of modeling clay. It comes to be free and easy-to-use, which provides excellent rudiments for people who want to start up the world of 3D sculpting. If you want to print statuettes such as comic characters, Sculptris is a fantastic choice for you. It&rsquo's often described as the most powerful, flexible 3D modeling software in the industrial or professional sector.
10. Blender - 3d modeler
Blender is an open source and free 3D printing computer-aided design (CAD) software. It&rsquo's an ideal software for skilled users who want to create more sophisticated 3D modeling such as contour modeling and polygon modeling. Blender is very popular among media workers and artists for creating animated films, visual effects, art, interactive 3D applications and video games. Blender gives its users enormous design freedom with nearly innumerable tools. But it isn’t a good choice for 3D printing beginners.
11. Meshmixer - free 3d printing software
Meshmixer is a free 3D editing, fixing, and sculpting tool. Its great points are viewing, checking, editing AND repairing STL files as well as spotting potential problems and automatically repairing them. Meshmixer allows users who want to create organic designs like people, animals and creatures to sculpt digitally and mash different 3D models together.
12. OpenSCAD - 3d printing cad software
OpenSCAD is a free software for creating solid 3D CAD models. Unlike Blender, it focuses on CAD aspects rather than artistic aspects in 3D modeling. It might be a good choice for you if you want to code your CAD models for it uses a programming language to create 3D objects. Therefore, it gives designer full control over the modeling process and enables designers to easily change any step in the modeling process. OpenCAD is available for Linux/UNIX, Windows and Mac OSX.
13. AutoCAD - 3d slicer software
AutoCAD, a software for 2D and 3D CAD, was developed by AutoDesk and first released in December 1982 as a desktop app running on microcomputers. Up to now, it has been used across a wide range of industries, by architects, project managers, engineers, graphic designers, and many other professionals. AutoCAD supports a large number of APIs for customization and automation such as AutoLISP, Visual LISP, VBA and ObjectARX.
14. ViewSTL - 3d slicer software
The view is an online and open source way to view Stereo Lithography Files as shaded on-screen images. It is the easiest way to preview STL files. What users need is just open the web page and drag their STL files onto the dotted field. The online STL viewer allows you to display a model in one of three views: flat shading (for quick viewing), smooth shading (to get a high-quality display), or wireframe. It is a perfect 3D printing software for beginners who want to view STL files.
15. Netfabb Basic - 3d printing software for free
Netfabb Basic is a 3D printer slicer software with some nice features, for example, you can analyze, repair and edit STL files before you get to the slicing stage. It is a good choice if you need something more than just slicer software and you want to repair STL files quickly without having to learn to use additional tools like Meshmixer or MeshLab. Netfabb Basic provides a 30-day trial version. When the trial expires, the software will continue to run with the same functionality.
3dimmaker 1 0 16 – 3d Model Printing Software Pdf
16. SelfCAD - Online 3D Modeling and Slicing Software
SelfCAD offers an easy to use platform that allows one to sculpt, slice and print 3D models all in one program, hence you don't need to launch multiple programs in order to work on your models. It's easier to learn hence ideal for users who are inexperienced like students. In addition, this software has a built-in slicer, so you can prepare your model for 3D printing without needing any additional software which can be hard to handle if you are in a classroom or workshop. SelfCAD is free of for the educators and students and for the general users, they have a one month trial period and later pay $4.99/m.
Conclusion
3dimmaker 1 0 16 – 3d Model Printing Software Download
All of the 16 3D printing software are free and friendly to beginners. But the big problem is that quite a lot of 3D printers are not compatible with them. It may take you a long time to select a 3D printing software to correspond with your 3D printer. Dobot Magician is an excellent 3D printer which supports all of the above software and saves you a lot of trouble.
The entire 3D-printing process starts with a 3D model. To achieve successful 3D printing of models is not a click-and-print process. You need to have the correct format of model and choose settings that will process that model within the limitations of the 3D-printing process.
Objects designed for home 3D printing are ready-made models. Usually, the designers of these objects have home 3D printing in mind, expecting that their models will be 3D-printed before any modeling process starts. After all, if you get a taste of the results, you have a clearer goal when you start making your own models.
The promise of home 3D printing doesn’t mean that you can print anything and everything. This practical limitation can frustrate users who expect to jump right in and start printing high-quality parts for product development or model-making, or as substitutes for products crafted by hand or manufactured traditionally.
In fact, 3D printers are good at producing objects that can’t be made by other manufacturing techniques. This figure shows two such examples. Samplephonics analogue explorations download free. Most users, however, don’t need to create such complex models — at least, not for first projects. Most home users of 3D printing face the more standard problem of simply getting what they need out of a 3D printer.
As an example, if you wanted to print a model of a person for a scale-model railroad, you might want that person to be in a seated position with arms stretched out (see the following figure). Software packages such as Smith Micro’s Poser and Trimble’s SketchUp make this sort of modeling easy to do. A 3D-printing bureau that uses a professional selective laser sintering (SLS) 3D printer, such a professional operation would have no problem printing this model. Trying to print it yourself on a home 3D printer, however — especially as an ambitious early project — can be a real challenge.
The main difficulty for fused filament fabrication (FFF) printers such as RepRap is that they can’t extrude into free air; the object must be supported while the printing is going on. Each new layer needs a supporting layer to build on. In printing a model of a seated person, then, the feet and lower legs print just fine, but the 90-degree overhang of the upper legs and the outstretched arms present a problem: The extruded filament has nothing to attach to. With nowhere to go, the filament collapses into a mess of extruded spaghetti.
A professional SLS 3D printer works differently: It builds objects by using fine nylon powder. A laser melts the nylon layer and fuses the shape of the object; then another complete layer of fine powder is spread over the build surface, and the process repeats. The main difference is that all that spare unfused powder provides support for the fused parts as they build; the parts that eventually extend from the model into free air can be built with support from the unfused powder and stay in place while being printed. When the model cools and the excess powder is brushed off, the model is complete. Models printed this way can be almost any shape and complexity. That process isn’t possible with home 3D printers — at least, not yet.
To help with this problem, you can use a support structure that builds a fine column of material from the base of the bed (or from the printed part itself) to support any overhanging features. The Slic3r software can detect where to add support. You can even use a second extruder to put a different support material in the build.
Normally, home 3D printers use the same material for the model as for the support material. All the extra material has to be snapped off, and the model cleaned up a little, when the print is complete (see the following figure). Slic3r model processing software can add support material automatically wherever it’s required. This approach works well.
Remember, though, that the support material is temporary and must be cut away when the print is finished. This cutting can leave marks and scarring. If the printed parts are intricate, removing the support by hand can be difficult.
Using a second extruder to provide a more workable support material — say, a thermoplastic such as polyvinyl alcohol (PVA) — allows you to trim the object by submerging it in warm water. The PVA dissolves, revealing the finished model. Dissolvable support material will probably be a commonplace feature of future home 3D printers.
3D printers like the BCN3D Sigma (see Figure 15-6) use a dual X-carriage system that allows two different materials to be printed with independent extrusion and movement systems. A primary material can be loaded and used on the left extrusion system while the right system is parked. When a support structure is required, the left head can park, and the right head takes over. This system allows much more freedom in model creation. Desktop 3D printers are not quite at the point of being able to print “anything” — for example, very fine details in jewelry where even support material can’t “support” the fine structures using the thermoplastic materials we have available — but the technology is moving in the right direction.
You can get around (or minimize) the use of support material by rotating the model in Netfabb before printing. If you rotate a model of a seated person so that the back and arms are on the base of the print surface, for example, you may not have to use support material at all.
No wonder 3D-printing sites often provide models designed for home 3D printing. A model of a person would most likely be posed standing straight up, with hands by the sides or in contact with the upper legs. In either case, no extra support material is needed, so the model can be printed easily on a home 3D printer. Most home users would struggle to print models in more complicated poses, due to the way that 3D printers build up models layer by layer. For this reason, if you require a model of a seated person, you may have to use support material.
Another way to avoid adding support material is to divide a complex model into two or more parts, each of which requires little or no support material. Mate translate – translator 5 1 0. After printing these parts, you can join them with glue.
You may be better off dividing complicated objects into subassemblies. All parts are printed flat on the build plate and later assembled into complex, functioning objects. The planetary gearbox shown here is a real challenge — even for a professional-grade 3D printer — to build as one complete, functioning object with no manual assembly required. Stay tuned, though; this goal is getting closer all the time.