In this class, you see how Sim 360 Pro simulation cloud services, in tandem with Fusion 360™ cloud-based software, can be used to design an improved football helmet to help reduce injuries to players while keeping the same level of comfort and visual appeal. All design modifications and simulation work is performed on the cloud, demonstrating that the traditional means of design and analysis work are being surpassed by this faster, more lightweight method. If you're interested in the future of product design and analysis, this is the place for you. Ravens fans need not apply.
Anyone who is looking at the future of design modification and analysis work; those who want to capitalize on the cloud and are interested in simulation of all kinds; and Sim 360 Pro users
Abhishek Trivedi:Abhishek is Technical Specialist with Autodesk's manufacturing team. He has over 9 years of experience in his field. Abhishek received his PhD from University of California, San Diego. He has published several papers in national and international journals. He is recipient of several prestigious awards and grants. He has presented his work in various prestigious international conferences. Abhishek was invited as session chair at 6th world congress of computational mechanics in Beijing, China.
Matt Jaworski is a Technical Specialist for Autodesk's Manufacturing Simulation Team. He has over 17 years' experience in the injection molding CAE simulation field working for such companies as Hewlett Packard, Rubbermaid and Moldflow/Autodesk. He has dual BS degrees in Mechanical and Plastics Engineering Technology from Penn State, a MS in Plastics Engineering from UMass Lowell and is currently finishing his Ph. D. at UMass Lowell in Plastics Engineering. He is a member of the Society of Plastics Engineers and the American Society for Engineering Education. Matt is also active in education and has taught at the University of Massachusetts Lowell and Penn State Erie, The Behrend College as an adjunct professor.
In this class, we cover many of the more advanced simulation workflows, physics, and ways of interpreting the results. The class discusses stress analysis of assemblies subjected to complex loadings and contact conditions. We cover modal frequency analysis and how to interpret the results using mass participation factors. We examine thermal analysis and multiphysics for thermal-stress coupling using CFD-calculated temperatures. We talk about buckling load factors and fatigue analysis of complex loading sequences and results interpretation. Finally, we put all the results together through the Decision Center and Comparison environment.
In this hands-on lab, learn how Inventor® Professional, Autodesk® Simulation CFD, and Autodesk® Simulation Mechanical design tools can empower structural engineers and architects to accurately assess designs for the infrastructure of our growing world. Autodesk design and creation suites are a smorgasbord of design tools, many with unlimited cloud computing capabilities. Creatively exploring various combinations and interoperability functions of Autodesk Simulation tools in nontraditional workflows can have a profound effect on design. This lab provides an opportunity to practice the workflow and techniques in a hands-on environment. A case study shows the techniques that are needed then justifies using simulation tools and workflows to accurately predict the thermal profile and resultant stresses through validation against measured bridge data. Attendees learn how Inventor designs can be analyzed for thermal loads using Simulation CFD and for thermal stresses using Simulation Mechanical.