Update: The webinar has ended, but you can still watch the recording here.ĭownload this case study for free to learn how the SimScale platform was used to investigate a ducting system and optimize its performance. Don’t worry if you won’t be able to join live-we’ll make sure to send you a recording! The webinar will take place on August 31st at 5 p.m. Join the “Using SimScale with Autodesk Fusion 360” Webinarįor anyone who is interested in learning more about the SimScale add-in and to understand how it works, we will be hosting a dedicated online webinar that will show you how you can improve a skateboard design using Fusion 360 and SimScale together. To continue working with your model, go to the SimScale platform and open the project in your dashboard.You can safely log out at any point after completing the upload, by clicking on “Log out from SimScale” in the add-in panel.Depending on the geometry’s complexity, the upload can take a few minutes to complete. After selecting the project, click on “Upload to project” button.
When you download and successfully install the SimScale add-in within Fusion 360, you will be able to upload the current CAD model to any of your projects on SimScale. With just a few clicks, you can push your geometry to an existing project on SimScale without having to leave the application or deal with some cumbersome format conversions when saving the file. With the help of the add-in, which can be downloaded for free directly from the Autodesk App Store for both Windows and Mac OS, you can create your model on Autodesk Fusion 360. SimScale has collaborated with the Autodesk team to launch an add-in that allows all Fusion 360 users to easily upload their 3D CAD models directly to SimScale. Our next test cut was far more successful.Say hello to the SimScale add-in for Autodesk Fusion 360įollowing last year’s successful launch of the connector app for Onshape, which allowed our users to have a more seamless workflow between the design and virtual testing phase, we are happy to announce another exciting CAD integration! Unlike the other explanation text, this doesn’t mention the setting as a potential compensation to lack of machine rigidity, but it worked. To tell Fusion 360 to take shallower passes, we can select the “Multiple Depths” option.
Making full use of all cutting surfaces on the tool is a reasonable default, but that involves removing far too much material at once for our mill.
We also wanted to take shallower cuts in the material, as by default Fusion 360 generates code to tell the CNC to plunge into full cutting depth of the cutter. Most real CNC mills in operation today are rigid enough for climb milling, so this was a reasonable default value for Fusion 360 to use, just not for us. Our machine is not rigid at all by CNC mill standards and must be switched over to “Conventional Milling”. Key phrase in that explanation: This generally gives a better finish in most metals, but requires good machine rigidity. But what if we didn’t even have that much knowledge? Thankfully Fusion 360 included a brief explanation accompanying many settings, including the “Sideways Compensation” parameter relevant here.
We’re not professional machinists, but we knew enough to know this is not a good way to go for this machine. Looking over parameters for tool path generation, the first item we noticed is the default of “Climb Milling”.
We now need to tell Fusion 360 how to be kinder to it. Businesses must generate less than 100,000 USD in gross annual revenue (including parent entities) and have a valid website or transact on a social media or digital platform. We know our project machine, built mostly out of salvaged parts, is not a CNC powerhouse. Fusion 360 for startups is eligible for venture-backed, angel-backed or bootstrap startups that are less than 3 years old and have 10 or fewer employees. In parallel with investigating points of weakness within the physical structure, we’re also learning how to make Autodesk Fusion 360 CAM friendlier to hobbyist grade CNC mills.