Develop and optimize robotic systems for automated and autonomous manufacturing workflows, and support the design and implementation of additive manufacturing processes
Job Summary
Develop and optimize robotic systems for automated and autonomous manufacturing workflows, and support the design and implementation of additive manufacturing processes.
Integrate robotics into AM systems for tasks such as material handling, inspection, and post-processing, and develop control algorithms using tools like ROS or Python.
Contribute to experimental design, data collection, and analysis of manufacturing process performance, and collaborate across engineering disciplines to scale lab concepts into robust production-ready systems.
Matching Summary
Develop and optimize robotic systems for automated and autonomous manufacturing workflows, and support the design and implementation of additive manufacturing processes.
Skills & Requirements
Must-have
Robotics and Additive Manufacturing
Automation and digital manufacturing
ROS, Python, or PLC programming
CAD software (CATIA, NX, Fusion 360)
Experimental design and data analysis
Nice-to-have
Materials science foundational understanding
AM post-processing techniques
Simulation tools (ANSYS, Abaqus)
Design-for-AM principles
Key Requirements
Degree in Mechanical Engineering, Mechatronics, Robotics, Manufacturing Engineering, or related field
Strong foundation in robotics, automation, or controls engineering
Hands-on experience with additive manufacturing systems (Desktop FDM)
Familiarity with basic materials science principles
Knowledgeable in programming/scripting languages (Python, C++)