Electric bikes
Electric motorcycles
Electric scooters
Electric Mobility Prototype Development
Electric Mobility Prototype Development
PXID develops functional electric mobility prototypes for electric bikes, electric scooters and electric motorcycles to validate structural performance, system integration and riding experience before mass production.Using 3D modeling, rapid prototyping, 3D printing and CNC precision machining, we manufacture prototype components and assemble complete vehicles for engineering verification. Through prototype assembly and road testing, PXID ensures every electric mobility product achieves optimal performance, safety and manufacturability, creating a solid foundation for large-scale production.
Design stage
During the design phase, PXID creates detailed 3D models for every electric bike prototype and scooter prototype component. This prototype development process verifies structural feasibility, optimizes part design, and minimizes risks before moving to production.
High-Precision 3D Printing
Using high-precision 3D printing, PXID rapidly produces electric mobility prototype components for form and function validation. This rapid prototyping approach ensures each part meets functional and aesthetic requirements for electric bikes and scooters.
CNC Precision Machining
Key structural components for electric mobility prototypes are manufactured using CNC machining and high-strength materials. This allows precise verification of frame strength, material performance, and mechanical reliability in electric bike prototypes and scooter prototypes.
Prototype assembly
PXID assembles complete electric mobility prototypes, integrating all systems including frame, drivetrain, suspension, and controls. Prototype assembly ensures every electric bike and scooter prototype delivers reliable performance and accurate system integration.
Comprehensive Road Test Validation
Each electric mobility prototype undergoes road testing to evaluate acceleration, braking, steering, and stability across multiple terrains. This prototype testing ensures optimal performance and riding experience for electric bikes and scooters before mass production.
Structural Strength & Durability Testing
PXID performs strength and durability tests on all electric mobility prototypes. Vibration analysis, fatigue testing, and load performance verification ensure long-term reliability and safety of electric bike prototypes and scooter prototypes.
Manufacturing Process Feasibility Review
During the prototype phase, PXID evaluates the feasibility of welding, bending, injection molding, and surface treatment for electric mobility prototypes. This ensures smooth transition from prototype development to large-scale ODM manufacturing.
Full-Process Prototype Manufacturing
PXID establishes a full development flow from Design Validation (DVT) and Engineering Validation (EVT) to Production Validation (PVT)
