The BAC Mono supercar, designed with Fusion 360.
5 Major Additions from Autodesk Fusion 360
At Autodesk University in Las Vegas, Senior Director of Fusion 360 Product Management, Stephen Hooper, introduced groundbreaking updates for Fusion 360.
Fusion 360 is part of Autodesk’s Product Innovation Platform. It’s not just a CAD tool. Or a CAM tool. Or even a simulation, data management, or rendering tool. It’s all of the above. The update is a huge leap for Fusion 360. Let’s dive into each of the new features unveiled at Autodesk University.
Fusion 360 Electronic Design
Fusion 360 now has the world’s first cloud-based solution for integrated PCB (Printed Circuit Board) design. In this update, you’re able to create physical layouts of your PCB in Fusion 360. More importantly, this includes choosing mounting points and clearance requirements in the PCB’s casing. Physical properties of the design can be used to layout the board’s components within its space envelope while maintaining all the previously associated connections.
The PCB design is directly related to its physical environment and common data which can be exported back to the mechanical workspace where it is embedded within the hardware design. In other words.If an interference is found between the PCB and the model, changes can be made to the board’s layout geometry with familiar, easy-to-use techniques. Moreover, any amendments to the electronic design results in the automatic rerouting of all the affected connections which reflect in the mechanical workspace.
Sheet Metal Fabrication
This is the feature we’ve been waiting for. Sheet metal fabrication allows users to design the type of fabrication process to be employed in manufacturing. Since Fusion 360 understands the employed manufacturing process, it will automatically apply setbacks and clearances to ensure the part can be physically produced.
More than that, Fusion 360 can produce the manufacturing instructions. It is because it knows how to unfold the part and produce necessary G-codes to drive the laser cutter. For example, when you go back to the design to make a change to introduce new sheet metal, Fusion 360 will understand how to automatically miter those parts.
It is able to update the previous panels and re-compute G-codes to make sure the manufacturing instructions stay consistent with the latest version of the design. It can even help nest the components to get the best sheet utilization on raw materials.
A Fusion first is the addition of Nastran to the simulation workspace. Instead of using simulation to just validate models, we can use simulation to optimize. Tools like event-based simulation allow you to apply sequential loading conditions. They also allow you to calculate non-linear results such as plastic deformation over time. This can bring to light unforeseen consequences for the mechanical integrity of the design.
Buckling solvers allow users to look at sheet metal components. It allows you to understand if and how they will fail by evaluating performance of the product beyond the point in which it becomes permanently deformed. It also offers on-demand access to advanced design techniques like shape optimization. Shape optimization modifies geometry everywhere (besides the parts needed for assembly). It only applies material where necessary to support structural loading conditions.
This strips the unnecessary weight off an object while keeping it safe. You can use this result to update the design definition in a way that allows us to use traditional manufacturing techniques. This feature allows the user to design freely without having to worry about any manufacturing limitations.
New Methods of Manufacturing
This truly is all about the Future of Making Things. What’s right to do is additive designing and the ability to produce toolpaths and G-codes for a 5-Axis CNC Machine. Additive design is a meshed-based design to lattice the internal structure of a component. Due to this honeycomb structure, it provides better thermal cooling for any component while providing the needed support.
Since you can’t do it manually, manufacturers do this method by printing the material. On top of additive design is the 5-Axis CAM. This allows designers to be able to mill at different angles, giving their products a cleaner finish with less steps.
Introducing Browser Access
This feature shows off the true power of the cloud. Fusion already runs on a Mac, PC, and any mobile device, and now it runs in your browser. Users can design, manufacture, and access data through the web. Working in the browser allows the models, data, toolpaths, and G-codes to update seamlessly.
These 5 new features continue to add to the value in Fusion 360. From the new Nastran simulation, shape optimization, 5-axis milling, additive design, electronic design, sheet metal fabrication, and browser access – Fusion 360 provides a huge array of tools for an unbelievable price. Fusion 360 will only get better too. With frequent updates, it’s proving to be the super-tool of the future.
You can watch the whole Autodesk University presentation here.
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My role at KETIV is to help you understand the power behind this tool. Email me at Brian.Mongkolpoonsuk@ketiv.com with any questions, comments, or requests regarding Fusion 360.