![solidthinking inspire gauge optimization solidthinking inspire gauge optimization](https://demo.vdocuments.mx/img/378x509/reader022/reader/2020061518/5ea9df749ac802763f3957d7/r-1.jpg)
![solidthinking inspire gauge optimization solidthinking inspire gauge optimization](https://0.academia-photos.com/attachment_thumbnails/46392901/mini_magick20180818-10937-13akp0a.png)
The team conducted static analysis and topological optimization using tools from the Altair HyperWorks™ suite, which helped them create optimized, lighter components. They wanted to make use of the knowledge they had gained from previous studies for structural design of aerodynamic packages. With more than seven students actively using Altair products to improve various aspects of the vehicle, the decision to incorporate Altair tools was an obvious choice. They came up with the idea to improve the impact properties of the vehicle nose cone laminate with the help of simulation. When Ana Casares Crespo, a former member of the ARUS Andalucía Racing team from University Seville in Spain, was looking for a final degree project, the team was inspired by the capabilities of Altair’s software. Schiebel also took advantage of APA solutions. Contacts, NLFE and complex dynamic systems were modeled with Altair® MotionView® and Altair® MotionSolve®. Subsequently, the system was evaluated by laminar and turbulent flow simulation as well as conjugate heat transfer simulation using Altair CFD™. Using Altair’s topology optimization structural design tool, Schiebel reduced the weight significantly while maintaining high stiffness. The engineers performed various simulations to optimize the design of AM engine parts. To ensure perfectly tuned architecture and a lightweight design while increasing stiffness and strength, Schiebel used Altair solutions in combination with 3D printing.
![solidthinking inspire gauge optimization solidthinking inspire gauge optimization](https://pixhost.icu/avaxhome/ce/46/004e46ce_medium.jpg)
Aerial systems active throughout Europe and operating with diverse payloads for different missions require a reliable vehicle architecture and fuel supply. To ensure airworthiness, UAS manufacturers rely on advanced simulation and manufacturing techniques to create efficient designs. Unmanned aerial systems (UAS) are a rapidly evolving technology and used for a variety of civil and military purposes.