The concept electric supermoto aimed to combine cutting-edge technology with superior design aesthetics to create a motorcycle that not only performs exceptionally but also resonates with the modern rider's expectations of sustainability and innovation. The project was centered around the following key features:

1. Ohlins USD Fork Suspension: Known for its precision and performance, the Ohlins USD fork suspension was chosen to ensure superior handling and stability, particularly in high-speed and off-road scenarios. This feature enhances the bike's agility and responsiveness, making it a top choice for enthusiasts.

2. Ohlins Monoshock Rear Suspension: Complementing the front suspension, the Ohlins monoshock rear suspension offers unparalleled comfort and control. This system was meticulously tuned to provide optimal damping and feedback, ensuring a smooth ride across varied terrains.

3. Customized Battery Pack: A significant aspect of the concept was the development of a customized battery pack that delivered an impressive 60bhp. This power output, combined with a mileage of approximately 200 kilometers, positioned the supermoto as a leading contender in the electric motorcycle market. The battery pack was designed not only for performance but also for efficiency, ensuring long-lasting power delivery without compromising on speed or range.

4. Titanium Chassis: The use of a titanium chassis was a deliberate choice to enhance the bike's structural integrity while keeping the overall weight low. Titanium, known for its strength and corrosion resistance, allowed for a lightweight yet durable frame, contributing to the bike's nimbleness and performance.

5. Underseat Storage: Understanding the need for practicality in a high-performance bike, underseat storage was integrated into the design. This feature provides riders with convenient storage space, adding a layer of functionality to the supermoto without compromising on its sleek design.

Design Process

The design process began with a thorough market analysis and a deep dive into the needs and preferences of modern supermoto riders. Collaborating closely with Mecatecno Spain, the team at Creed Works Studio explored various design iterations, focusing on balancing aesthetics with performance.

The design phase involved several key steps:

1. Conceptualization: Initial sketches and 3D models were developed to visualize the supermoto's design. The focus was on creating a bike that was both aggressive in its stance and streamlined for aerodynamic efficiency.
   
   

2. Engineering Integration: The integration of high-performance components such as the Ohlins suspension systems and the customized battery pack required precise engineering. The team worked on optimizing the placement of these components to maintain the bike's balance and performance.
   
   

3. Material Selection: Titanium was chosen for the chassis due to its superior strength-to-weight ratio. The challenge was to design a frame that could withstand the stresses of high-speed riding while remaining lightweight and agile.
   
   

4. Prototype Development: A prototype was developed to test the bike's performance, handling, and overall functionality. The prototype phase was crucial for identifying potential improvements and ensuring that the final product met the high standards set by both Creed Works Studio and Mecatecno Spain.
   
   

5. Final Design and Testing: After refining the prototype, the final design was completed, and extensive testing was conducted. This phase ensured that the bike not only met but exceeded expectations in terms of performance, safety, and durability.

Challenges

The project presented several challenges, including:

• Balancing Performance with Range: Achieving a balance between high performance (60bhp) and a reasonable range (200 kilometers) required innovative battery design and energy management solutions.
  
  

• Material Constraints: Working with titanium, though beneficial for weight and strength, posed challenges in terms of fabrication and cost management.
  
  

• Integration of Components: Ensuring that all high-performance components worked seamlessly together without compromising the bike's design or functionality required careful planning and execution.

Outcome

The final concept electric supermoto exceeded all expectations, garnering attention for its innovative design and exceptional performance. The collaboration between Creed Works Studio and Mecatecno Spain resulted in a motorcycle that not only pushes the boundaries of what electric bikes can achieve but also sets a new standard for design and engineering in the industry.

This project stands as a testament to Creed Works Studio's commitment to innovation, quality, and excellence in design, further solidifying its position as a leader in the design and branding industry.

Conclusion

The concept electric supermoto is a prime example of what can be achieved when design and engineering work hand in hand to create something truly extraordinary. Through this project, Creed Works Studio has demonstrated its ability to not only understand the market's needs but also to deliver solutions that are both visionary and practical. The collaboration with Mecatecno Spain has set a new benchmark for future projects, showcasing the potential of electric motorcycles in the high-performance segment.