ENGINEERING AND VEHICLE OPTIMIZATION
Our dedication goes well beyond just simply making forged wheels. We're in the realm of shaping a lifestyle, one that connects with you.
Everything has a beginning, and without the vehicle, there would be no need for wheels which is why we strive to keep up with demand while maintaining the highest level of quality in design and performance. Ensuring perfect fitment is part of this process and we achieve this through a comprehensive measuring process and 3D scanning the latest vehicles – from wheel wells to bumpers to brake calipers and suspension components.
PRECISION DOWN TO THE MILLIMETER
Vehicle Optimization
The customization process involves an extensive measuring of the vehicle’s wheel wells and all related components. This includes not just the dimensions of the space where the wheel will fit, but also an understanding of the clearances needed for optimal performance. Factors like brake caliper size, suspension geometry, and steering radius are all considered. This meticulous attention to detail ensures that the wheel not only fit perfectly but also function seamlessly with the vehicles existing systems.
Utilizing state-of-the-art scanning technology allows for a level of accuracy that is paramount in bespoke wheel manufacturing and design. With these digital models of the vehicle’s components and wheel space, we can design wheels that are optimized for each specific vehicle, enabling us to understand the exact specifications and limitation of the vehicle ensuring a perfect fitment down to the millimeter.
Engineering
Our commitment to quality and safety is evident in a rigorous testing process for every wheel design. Adhering to the industry standards set by Technischer Uberwachungsverein, better known now as TUV, we ensure that each wheel design is not just aesthetically pleasing but also structurally sound and reliable.
The use of FEA software is central to this process, providing a detailed and accurate method for testing wheels designs under various simulated conditions. By using this software, we can predict how a wheel design will respond to different types of stress and strain – crucial for identifying potential weaknesses and ensuring the wheel’s integrity before it is manufactured.