Orange3D
Develops AI-powered robotic additive manufacturing systems and software that utilize 3D vision for real-time process control in large-scale industrial printing.
- CEO / Founder
- Li Bo
- Team Size
- 11-50
- Stage
- Active
- Total Funding
- $1.4M
- Latest Round
- Angel
- Key Investors
- Linear Capital
Technology & Products
Key Products
OrangeOS: AI-driven robotic operating system for additive manufacturing; OrangeVision: 3D vision system for real-time monitoring and path correction; Robotic AM Workstations: Integrated cells for large-scale industrial 3D printing
Technological Advantage
Enables high-precision additive manufacturing on standard, low-cost industrial robots by using AI to compensate for mechanical inaccuracies and thermal deformation in real-time.
Differentiation
Value Proposition
Reduces the cost of large-scale metal and composite part production by 40-60% compared to traditional CNC or gantry-based AM by utilizing standard industrial robots and proprietary AI-path planning.
How They Differentiate
Unlike traditional offline programming (OLP) tools, Orange3D focuses on a closed-loop vision system that adjusts toolpaths dynamically during the print, ensuring higher reliability for large-scale metal deposition.
Market & Competition
Target Customers
Aerospace, automotive, and energy manufacturers requiring large-scale, complex metal or composite components.
Industry Verticals
Aerospace/Defense; Automotive; Energy; Industrial Manufacturing
Competitors
Ai Build; Caracol; Nanjing Shidai High-Tech; Robotmaster (Hypertherm)
Growth & Milestones
Growth Metrics
Raised nearly 10 million RMB in Angel round; team composed of experts from ABB and Robotmaster; expanding presence in the Chinese aerospace supply chain.
Major Milestones
2023: Company founded in Shanghai; 2023: Completed Angel round led by Linear Capital; 2024: Launched OrangeOS for robotic additive manufacturing; 2026: Confirmed exhibitor at TCT Asia
Notable Customers
Shanghai Electric; Sany Heavy Industry; Aero Engine Corporation of China (AECC); COMAC