Material removal robots handle grinding, polishing, and deburring in automotive, precision shaping in aerospace, intricate trimming and drilling in electronics, and diverse processes in metalworking, woodworking, and mold-making.
Applications
Material removal robotics is advancing with AI, machine learning, and smart sensing. Vision and force feedback improve precision, while cobots boost flexibility through human collaboration. Cloud systems enable remote monitoring, predictive maintenance, and greater productivity.
Future Trends
Experience the pinnacle of accuracy with our advanced robotic trimming systems, ensuring flawless cuts in every operation.
Robotic Precision
MATERIAL
REMOVAL
200-300% Increase
part throughput vs manual operations
Saves $45-85/hour
in fully loaded labor costs per shift
Just 1% Variation
Vs. manual grinding/deburring
5-15% variation
1 in 6 manual grinders
experience carpal tunnel syndrome affects - eliminated with automation
Material removal robotics offer numerous advantages over traditional manual methods. These systems ensure consistent and precise material removal, reducing human error and enhancing product quality. With their high repeatability and accuracy, material removal robots can achieve complex and intricate cuts, shapes, and finishes.
Benefits and Components
The Impact on Your Operations
These robots improve workplace safety by minimizing human exposure to hazardous environments. Material removal robotics typically consist of a robotic arm or gantry system, end-of-arm tooling (EOAT), sensors for feedback and control, and a control system for programming and operation. Most companies see a return on investment in less than a year.