[us_image image=”135201″ link=”%7B%22url%22%3A%22%22%7D”]
[us_image image=”129114″ align=”left” size=”full” link=”%7B%22url%22%3A%22%22%7D” css=”%7B%22default%22%3A%7B%22width%22%3A%22180px%22%2C%22height%22%3A%2280px%22%7D%7D”][ultimate_heading main_heading=”Abstract” alignment=”left” spacer=”line_only” spacer_position=”middle” line_height=”3″ line_color=”#B51F23″ main_heading_font_size=”desktop:24px;” main_heading_margin=”margin-top:10px;margin-bottom:10px;” sub_heading_margin=”margin-top:10px;margin-bottom:10px;” line_width=”100″ spacer_margin=”margin-top:10px;margin-bottom:10px;”][/ultimate_heading]
Elisava Racing Team, a student engineering group from Elisava Barcelona School of Design and Engineering, developed a fully electric off-road motorcycle using Siemens Simcenter™ Inspire™ software. The team aimed to improve safety, comfort, and structural performance while reducing overall vehicle weight and complexity. By applying topology optimization, simulation-driven design, and additive manufacturing optimization, the team enhanced structural components, minimized residual stresses, and created a lighter, more efficient motorcycle suitable for rugged terrain and rescue applications.
[ultimate_heading main_heading=”Key Takeaways:” alignment=”left” spacer=”line_only” spacer_position=”middle” line_height=”3″ line_color=”#B51F23″ main_heading_font_size=”desktop:24px;” main_heading_margin=”margin-top:10px;margin-bottom:10px;” sub_heading_margin=”margin-top:10px;margin-bottom:10px;” line_width=”100″ spacer_margin=”margin-top:10px;margin-bottom:10px;”][/ultimate_heading]
- Simulation-driven design optimization: Simcenter Inspire enabled topology optimization to improve structural components and overall motorcycle performance.
- Lightweight engineering achieved: Structural assemblies were redesigned to significantly reduce weight while maintaining strength and durability.
- Additive manufacturing optimization: Simcenter Inspire 3D Print minimized residual stresses and optimized support structures during manufacturing.
- Improved safety and comfort: Simulation helped refine chassis, swingarm, and handlebar designs for better rider safety and control.
- Advanced structural analysis: Multiple load cases were analyzed to ensure durability under real off-road riding conditions.
- Efficient product development: Iterative simulations accelerated design validation and reduced physical prototyping needs.
- Optimized complex assemblies: Simulation evaluated performance across multiple racing scenarios to enhance reliability.
- Electric mobility innovation: The Dayna EVO motorcycle demonstrated sustainable mobility with high performance and rugged usability.
- Enhanced engineering learning: Siemens academic tools empowered students with professional-grade simulation capabilities.
[ultimate_heading main_heading=”Download Case Study” alignment=”left” spacer=”line_only” spacer_position=”middle” line_height=”2″ line_color=”#B51F23″ main_heading_font_size=”desktop:24px;” main_heading_margin=”margin-top:10px;margin-bottom:10px;” sub_heading_margin=”margin-top:10px;margin-bottom:10px;” line_width=”100″ spacer_margin=”margin-top:10px;margin-bottom:10px;”][/ultimate_heading][us_separator size=”small”]
[forminator_form id=”135177″]
