![]() ![]() Generative Design samples – samples demonstrating generative design functionality.Each stage will be updated based on your progress. Learning panel – guided walkthrough on the steps of creating a generative design study.What resources are available within Fusion 360 to help me learn? Well, this is where Fusion 360 shines: Introduction to Generative Design (60 min) – You will learn how generative design can benefit every industry and gain introductory knowledge.Understanding Generative Design (30 min) – This lecture shows you how to use generative design in Fusion 360 to create multiple CAD-ready solutions simultaneously, based on real-world manufacturing constraints and performance requirements.Introduction to Generative Design (15 min) – Watch the recording and explore additional content below – including Q&A from the live session, featured products, and next steps.Generative Design mindset (3 min) – You will review the generative design process, and how a shift in the design mindset is needed to set up a generative study properly.What is Generative Design? (2 min) – The basics.Overview of Generative Design (1 min) – You will explore how to define a design problem, including the functional and manufacturing requirements, and generating alternative results that meet your design criteria.Here are the best getting started learning guides: However, all of that power does require a bit of knowledge, and it can be overwhelming. It is like hiring hundreds of engineers, designers, analysts, simulation experts, with thousands of hours of experience and an endless amount of data…all with a push of a generate button. So, what is Generative design, and how do I get started? Great questions! Generative design allows you to expand your engineer capacity exponentially. ![]() Render done in Fusion 360 in collaboration with Autodesk customer, MJK Performance. For Example, filter models with the material Aluminium that are die-casted with a safety factor of 4.Rendering of a triple clamp from the front end of a motorcycle. It is possible to filter and choose specific models. Explore: To explore and view the multiple models generated.Generate will start the design process and the generate status can be used to track status. Pre-Viewer will display a rough model before running the study. Generate: Pre-check will look at the current setup to assess whether a generative design can be conducted or not.Manufacturing methods to consider (including additive, subtractive, 2D cutting, etc.) can be selected here. Design Criteria: Objectives such as desired weight, stiffness, and safety factor can be set here.These loads can be used to understand the pushing, pulling, and twisting loads that the model must withstand. Design Conditions: Structural constraints such as fixed, Pin, and frictionless constraints can be defined here.The obstacle geometry defined will be highlighted in red and the modeling environment will not interfere with these areas. The preserved features will appear as green on the model and this will be included in generative designs. Design Space: Preserve features and define obstacles.Preparation of existing parts for generative design. Edit Model: To edit or make modifications to the model.All studies will be displayed on the browser. It is possible to create multiple studies for the same model. Study: To aid in the creation of a new generative study.Guide: A step-by-step guide on how to set up a generative design.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |