ZACOE PERFORMANCE
ZACOE Performance is a bespoke carbon fiber body kit manufacturer that proudly focuses on its own in-house design and top-notch carbon fiber craftsmanship. With the help of technology, ZACOE designers are free from limitations and boundaries, assimilating inspiration from every corner of the world. We know that what matters is style, not fashion. ZACOE’s design transcends social and age boundaries.
3D SCANNING
Once the model and concept are finalized, we source an OEM car and subject it to 3D scanning for the most precise digital model. This process involves using a specialized scanner to capture the exact shape and dimensions of the car's exterior. The resulting digital model then serves as a foundation for the design process. ZACOE’s work always includes sophisticated inner mechanisms and bolt-on fitment, which is why we require the most precise start. Each car typically takes over 40 hours to scan.
CONCEPT SKETCHING & DESIGN LANGUAGE
Before transitioning into full digital modeling, our designers explore the core emotions and identity of each project through hand-drawn sketches. This stage is where ZACOE’s signature design language is shaped—bold geometry, fighter-jet-inspired structures, and dramatic tension expressed through lines and surfaces.
Designers develop multiple iterations, focusing on proportion, stance, and the overall narrative of the vehicle. These sketches serve as a visual bridge between the raw scanned data and the advanced CAD modeling that follows. It is here that intuition, creativity, and ZACOE’s philosophy fuse into the first recognizable form of the final body kit.
PROTOTYPING
After the digital model has been designed and tested, the next step is creating a physical prototype of the kit in ABS. This involves using specialized equipment, such as a 3D printer or CNC machine, to craft each piece of the kit. The prototype can then be assembled and tested on the car to ensure proper fitment and expected performance.
MOLD MAKING
After the digital model has been designed and tested, the next step is creating a physical prototype of the kit in ABS. This involves using specialized equipment, such as a 3D printer or CNC machine, to craft each piece of the kit. The prototype can then be assembled and tested on the car to ensure proper fitment and expected performance.
