Practice creating toolpaths for manufacture.Hawk Technology is a company that designs MDTs/CADs, Websites, Web Hosting, Models and textures for Grand Theft Auto V, Logos, and more. Create detailed drawings for manufacturing. Identify manufacturing methods based on part inspection. Even if the end goal as an engineer isn’t to fabricate your own parts, it’s a valuable skill to understand how things are made and what design decisions can ultimately affect how something is created. We'll take a closer look at design and detail for manufacture and create toolpaths to cut parts. Each piece represents a certain tolerance and put together, things might not work or fit if they weren’t accounted for in the design. In many cases, the end product is made up of an assembly of different pieces to simplify manufacturing or to achieve specific design goals. With manufacturing at the core of a design, we're able to fix potential problems in the design phase rather than after production. With design for manufacturing, our design process focused on the design over its cost, but always keeping in mind how parts needed to be made. Explain and identify simulation results Demonstrate knowledge and skills in more advanced Fusion 360 CAD and CAE skills.
Summarize the use cases for various types of simulation studies. Describe the simulation workflow in Fusion 360.
In this course, we’ll explore the usage static stress simulation, shape optimization, thermal and other mechanical simulation types to better understand how we can apply these tools to everyday design problems. Like any other tool though, it must be used properly to yield the best results. When used early in the process for simulation driven design and throughout the development process, simulation can help drive the design, make informed design decisions, speed up time to production, and most importantly, identify and eliminate costly design mistakes. Simulation is a great tool that allows engineers to test, validate, and modify designs before they become a physical prototype. The foundation of engineering design is often coupled with validation. Looking for Autodesk Fusion 360 certification prep courses? Check out additional learning resources to help you uplevel your skills: Demonstrate knowledge and skills in Fusion 360 applying design and manufacturing workflows to take digital parts to physical prototypes. Summarize the toolset available in Fusion 360. Explain the design to manufacturing process used to take a digital model to a physical part through CNC programming. We learn the basics in each of these areas which are to be fully developed in later courses that apply these principles and Fusion 360 skills.Īfter taking this course, you'll be able to:
We practice the basics of part and assembly design, and tools such as animation, rendering, and simulations using Autodesk Fusion 360.
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This course explores the design for manufacture workflow and shows how to validate models and create the G code, the programming language needed to instruct the CNC machine on how to move. Looking for Autodesk Fusion 360 certification prep courses? Check out additional learning resources to help you uplevel your skills.ĭesign for manufacturing is the process of designing parts, components, or products with the understanding surrounding design requirements for a specific manufacturing method. Through this specialization, you’ll learn the foundations of applying computer aided design (CAD), computer aided engineering (CAE), and manufacturing principles while developing your technical skills within Autodesk Fusion 360. This means not only understanding engineering principles that govern the title and role, but also perfecting the toolsets needed to design and develop products. These trends have forced today’s engineers to broaden their skillset to be successful.Įngineers today are required to be on the cutting edge of design innovation. Their role has moved away from an individual responsibility to working as part of a collaborative engineering team, executing tradeoffs with both engineering and business stakeholders to meet project goals. Engineers need to factor in broader concerns such as cost, procurement, sustainability, manufacturability, and serviceability. These tasks are centered on form, fit, and function. Products have become complex and engineers are more frequently asked to leave specialized roles and to take on a wide variety of tasks that are beyond their traditional responsibilities. The demand placed on today’s engineers goes above and beyond the job description.
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