turn drawing into 3d print
Autodesk'southward Fusion 360 is a versatile CAD parcel that has all the features needed to develop products from the conceptual stage through design verification to manufacturing on both traditional and digital fabrication tools like 3D printing.
In this commodity, you'll find a quick overview of Fusion 360'south interface and features for 3D press too equally detailed tips to help y'all set parts for 3D printing.
Fusion 360 is a deject-based CAD platform that is an affordable, highly capable alternative to other major players in the industry. It is like shooting fish in a barrel to utilize and has all the common features you can wait from popular CAD packages. Fusion 360 was congenital from the ground up to be an all-encompassing production development solution and aims to offer a simple workflow from conceptual design all the way through manufacturing.
Fusion 360 has a very large knowledge base that thoroughly covers every feature of the software, these tutorials can be accessed through Fusion 360 as well equally through the Autodesk website. At that place is likewise an official YouTube channel with many hours of free tutorials.
The software receives frequent upgrades and new features go far every few months. Fusion 360 is ideal for high turnover businesses as well as start-ups looking for a professional tool to go them into the market.
Fusion 360 can perform resource-intensive operations on the deject, including rendering, simulation, shape optimization, and generative design. This means that work can continue while all the heavy lifting is washed on the deject.
There are diverse licensing packages available, these are listed below:
- Free Trial: Autodesk offers a 30-day free trial upon signup.
- Educational: Like about other CAD packages, Fusion 360 comes with an educational license to students, educators, and academic institutions.
- Start-upwards: A free license is available for start-ups, enthusiast, and hobbyist. In gild to utilize this license, the user must run a company that has a turnover of less than $100 000 per year. The start-up license does not include any of the more than advanced features such every bit generative pattern.
- Commercial: There used to be two versions of the paid license, namely a standard and ultimate, but these have been merged into one version that contains all the features that used to be in the ultimate version. The fees are structured every bit a subscription model.
In Fusion 360, you can switch between 7 different workspaces. Each workspace has its own set of tools and functions:
- Design: For drawing 3D models and surfaces by making use of sketches, extrusions, revolves, and many other standard CAD tools.
- Generative Design:Generative Blueprint is a form of artificial intelligence that leverages the ability of the deject and machine learning to output efficient blueprint iterations based on your mechanical constraints.
- Render: Create photorealistic renderings of components and products.
- Blitheness: Animate assemblies to see if they office as expected or to show functionality to prospective clients.
- Simulation: Computer-aided engineering to perform diverse stress analyses on the designs to make certain they can handle the operating conditions.
- Industry: Figurer-aided manufacturing (CAM) to assist with manufacturing the part on diverse digital fabrication tools, such as CNC mills, CNC lathes, laser cutters, and waterjet cutters.
- Drawing: Create shop drawings of designs for manufacturing in a traditional manual machine shop or to accompany the G-code for CNC machined parts.
The Fusion 360 workspace is divided into seven chief sections, namely the tool bar, data panel, navigation, timeline, browser, view cube, and the marking carte du jour. Each of these is described in more detail below.
The toolbar contains all the tools and features that are available in a workspace. In the case of the design workspace, these tools help create and modify 3D models, surfaces, sail metal, and assemblies.
The information panel allows the user to open existing projects, create new ones, manually save a project and admission the information panel. The data console is a space where designs can be saved and organized in an like shooting fish in a barrel to navigate format. The data panel allows you to create projection folders as well as a identify to observe sample parts and tutorials.
The navigation bar contains all the tools for rotating, translating and changing the visual style of a model. At that place are also options to break the sheet into subsections with each indicating a dissimilar view of the model.
The timeline shows a history of all the operations performed to create the part. This includes all features, patterns, material changes, and sketches to name a few. This is a unique feature that allows you to see the complete history of their function without having to navigate through the browser tree. Any characteristic can be modified with a right-click within the timeline. The timeline can also exist used to detect that specific feature in the browser tree.
The browser contains all the components, features, bodies, sketches, and construction geometry of a blueprint. The browser takes the form a tree-like construction which should be familiar from mutual CAD packages.
The view cube allows you to manipulate the model in a more than structured fashion. Past clicking either on the corners, edges, or faces of the cube the model will re-oriented inside the sheet. This makes it like shooting fish in a barrel to switch between standard views. If the user clicks the arrow on the bottom correct of the view cube, a drop-down carte du jour appears that provides more options to control the view.
The marking menu is a situation specific popular-up menu that contains commonly used features, it can be accessed past clicking right on the model or the canvas. The features that show up in the carte du jour are determined by what is clicked and what workspace is currently agile. This carte du jour helps increase modeling speed and convenience.
Formlabs and Autodesk accept teamed up to streamline your digital workflow with introducing new functionality in Fusion 360 for 3D printing your designs with SLA technology from Formlabs. Our Form 2, Form iii, Form 3B and Form 3L printers are the first SLA machines to be included in the Machine library for Fusion 360. This new workflow combines the best of Autodesk'due south versatile CAD package with professional 3D press results. Nosotros're excited to bring this new functionality to Formlabs users, who tin now iterate on new ideas in but a few steps.
The software integration includes a brand new graphic interface where users tin visualize how parts volition fit into the Form 2, 3, 3B and 3L build volumes natively in Fusion 360. Individual designers can orient their parts, adapt them within the build platform and automatically generate back up structures parametrically all within the manufacturing workspace of Fusion 360. If they need to make a design alter, their print grooming operations update automatically. Teams can also streamline file direction by exporting their build platform as a ".class" file from Fusion 360 and open them in PreForm. Soon additive manufacturing setups created in Fusion 360 will be sent direct PreForm as well. This new integration eliminates the need to save individual parts as ".stl" files and importing them to PreForm manually, giving designers and manufacturers more reliable version control.
The form characteristic, denoted past a imperial cube, allows the sculpting of circuitous organic shapes. It opens a new workspace that has a wide array of features for sculpting circuitous shapes. This feature is platonic for creating organic and artistic models for 3D press.
The surface tools allow the user to repair models for 3D printing. Surfaces can be stitched airtight, extruded, pulled, and pushed to reshape the role. The surfacing tools also aid create a watertight model that has no openings in the shell.
This feature is useful for simulating how your 3D print will behave under fourth dimension dependant loads and velocities. For example, snap fit joints can be modeled to prove what loads are experienced by the clip equally information technology is forced airtight, providing a good idea of where the weak points are so that the design can exist optimized.
Some 3D printing technologies like fused deposition modeling (FDM) create parts with not-linear textile properties that can only be simulated if the FEA package has a non-linear study blazon. Fusion 360 features a very capable non-linear report blazon that can accurately predict the stress on a component provided the correct material data is loaded in.
Find out more about isotropy in 3D press.
Designing for 3D press is not an overly complex task, however, there are a few full general guidelines to ensure a perfect print every time.
Showtime, consider the 3D press technology that will be used to print the part(s). This volition decide the type of design constraints, the levels of accuracy achievable, and support construction requirements
Learn more well-nigh the three most established technologies for 3D printing plastics today—stereolithography (SLA), fused deposition modeling (FDM), and selective laser sintering (SLS)—in our comprehensive guide.
Wall thickness is critical because parts with likewise thin walls will be brittle and might break during 3D printing or in postal service-processing. The minimum recommended wall thicknesses vary by press technology.
Download the Formlabs design guide for stereolithography 3D printers.
Overhangs are easy to print on SLS 3D printers, as the material is supported by the unfused powder. Other technologies like SLA or FDM might require support structures for overhanging features.
Depending on the technology, printing big solid or flat components tin can result in warping due to the oestrus build up in the part. Add design features like ribs to make the design structurally stronger and help minimize warping.
Read our guide for ten insights to help y'all optimize your 3D printing rapid prototyping workflow to be as cost and time efficient as possible.
Clicking the Make icon in the Blueprint workspace opens the 3D print carte du jour to make a number of modifications to optimize the model for printing and and then transport the model to a 3D print utility.
The menu is broken down into a number of options equally listed below:
This pick allows the user to select the model for 3D printing.
This checkbox shows the mesh on the model that is useful if the user wants to see what consequence changes in the settings accept on the model.
This shows the number of individual triangles that make up the model. A higher refinement will increase this number.
This selection allows yous to select one of three pre-defined refinement settings: depression, medium, and loftier. This determines the total number of triangles used in the model. In that location is as well a custom option which allows the user to further refine the mesh based on specific parameters:
Fusion 360 allows you lot to transport the model to a range of 3D print utilities such as Meshmixer or Formlabs PreForm for 3D printing.
If the "Transport to 3D impress Utility" is not selected Fusion will export the model as an STL file according to the refinement options selected. This STL file can then exist loaded into whatever 3D printer slicer software.
Fusion 360 is a versatile CAD bundle with an array of features that makes information technology easy to connect digital workflows and movement from design to manufacturing.
Looking for the right tool to plow your design into reality? 3D printers empower engineers and production designers to rapidly prototype in-firm, saving time and costs at every stage of production evolution.
Learn more about 3D press and run across the quality immediate by requesting a complimentary sample role printed on the Formlabs SLA 3D printer.
Acquire More Virtually 3D Printing
Source: https://formlabs.com/blog/fusion-360-tutorial-basics-and-tips-for-3d-printing/
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