Electric bikes
Electric motorcycles
Electric scooters
Engineering prototype development
ENGINEERING PROTOTYPE DEVELOPMENT
We are building a functional prototype to verify the performance of every mechanical structure and component, ensuring we are fully prepared for mass production. Using 3D modeling technology, we design various parts that meet functional requirements. High-quality components are manufactured through 3D printing and CNC machining processes. After assembling the prototype and conducting riding tests, we ensure that the product delivers optimal performance and reliability, laying a solid foundation for large-scale production.
Design stage
In the design stage, the team determines the product concept and market positioning, completing detailed 3D modeling and initial design reviews. Designers use CAD software to ensure the functionality and aesthetics of components such as the frame, wheels, and braking system. Through structural analysis, the feasibility of materials and processes is assessed, reducing risks in later development.
High-Precision 3D Printing
In the early stages of product development, we use high-precision 3D printing technology to quickly produce the vehicle’s main exterior and cover parts. This allows us to verify the product’s geometry, detailed design, and certain functionalities. It helps to identify issues with appearance harmony and part compatibility early on, significantly shortening the design verification cycle.
CNC Precision Machining
The core structural components of the frame are processed using CNC machining with various metals or high-strength materials. CNC can create high-precision and high-quality prototypes to verify the product’s structural strength, material performance, and manufacturability, especially for components that need to be tested for load-bearing and transmission mechanical properties.
Prototype assembly
Once all components are ready, we move into the assembly phase for the prototype. Team members collaborate closely to install components such as the engine, frame, suspension system, and tires according to design drawings and process flows. We ensure that every connection point is securely tightened while adjusting vehicle parameters to achieve optimal performance.
Comprehensive Road Test Validation
Real-road riding tests evaluate prototype performance under actual conditions, covering acceleration, braking, steering, and climbing. These tests assess stability and comfort across various terrains and provide essential input for design optimization.
Structural Strength & Durability Testing
PXID performs strength simulations and fatigue testing to validate frame reliability under multiple load conditions. Vibration, impact, load, and long-term endurance tests ensure the product is stable, safe, and durable.
Manufacturing Process Feasibility Review
During the prototype phase, production processes—including welding, bending, injection molding, and surface treatment—are evaluated to ensure the design is not only high-performing but also manufacturable at scale.
Full-Process Prototype Manufacturing
PXID establishes a full development flow from Design Validation (DVT) and Engineering Validation (EVT) to Production Validation (PVT)
