Design & Manufacturing


TECHNICAL MASTERY. UNMATCHED PERFORMANCE.

A futuristic dragster with an exposed metal frame, large rear tire, and streamlined chassis.

3D Design Software

Two metal wheel hubs with threaded holes, placed on a textured fabric surface.

Our designers leverage the latest advancements in 3D design software technology to deliver cutting-edge solutions and superior product designs. By integrating state-of-the-art tools such as AutoCAD, SolidWorks, and Blender, we can create highly detailed, accurate, and customizable models that meet the unique needs of our clients. 

Four metal exhaust pipes with heat discoloration, displayed on a wooden surface with mechanical parts and tools in the background.

Our machinists use the latest machining technology to produce the highest quality products, ensuring precision, efficiency, and superior craftsmanship. By utilizing advanced CNC machines, multi-axis milling, and high-speed machining centers, we achieve exceptional accuracy and consistency in our manufacturing processes. 

Machining capabilities

Our expert welders and fabricators use the newest and latest materials tailored for the aerospace and similar high-demand industries.  Our fabrication process integrates cutting-edge materials, including titanium and chromoly alloys, carbon composites, and high-performance polymers, chosen for their superior performance characteristics. Using state-of-the-art equipment and rigorous quality control, we achieve unparalleled strength and reliability, essential for the safety and high demands of racing applications.

Welding and Fabrication

A red plastic toy race car on a light-colored table, with a black background and some paper advertisements or flyers in the foreground.
A Snapmaker J1 3D printer with a black print bed, placed inside a metal frame, with a small touchscreen interface displaying "IDEX Made Faster."

The bridge between a concept and a championship is a rigorous prototyping phase. We leverage our deep racing experience to move designs from the digital space into physical mock-ups with incredible speed. 

This "fail-fast, win-sooner" philosophy allows us to test ergonomics, clearance, and airflow dynamics in a real-world environment. 

By iterating on designs rapidly, we can refine complex assemblies and verify performance characteristics, ensuring that the final manufactured product is optimized for maximum power and reliability.

Prototyping

We push the boundaries of modern manufacturing by utilizing high-performance 3D printing to create both functional prototypes and end-use racing components.

 Using advanced, heat-resistant polymers and carbon-infused materials, we can produce intricate geometries that are impossible to achieve through traditional machining.

 Whether we are printing custom sensor housings, testing prototypes, or casting patterns for one-off engine parts, our additive manufacturing capabilities allow us to reduce weight and increase complexity without sacrificing the structural integrity required for high-stress racing applications.

3D Printing

A detailed view of a motorcycle engine with exposed components and parts.

Our engineering process begins with absolute precision. We utilize high-end, industrial-grade 3D laser scanning technology to capture the exact geometry of engine cradles, chassis points, and complex casting internals. 

By creating a digital "twin" of your hardware with micron-level accuracy, we eliminate the guesswork of traditional measurements. 

This allows us to design components that fit perfectly within tight tolerances, ensuring that every custom intake, exhaust pipe, or turbo manifold integrates seamlessly with your specific configuration before a single piece of metal is cut.

3d scanning