Specifically, they can
- analyze and evaluate the essential elements of modern manufacturing systems with regard to aspects such as suitability for specific manufacturing tasks, manufacturing accuracy and economic efficiency (k3, k4).
- understand the structure of numerically controlled machine tools and assess their fields of application (k3, k4).
- create simple NC programs for programming such machines (k3, k4)
- understand the interrelationships and interfaces of the CAD/CAM process chain (k3)
- take quality assurance measures in production (k3, k4).
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- Design of and requirements for machine tools. Components of machine tools such as drives, guides, controls, measuring systems, clamping devices. Special features of CNC machine tools.
- NC/CNC programming: structure of NC programs, control commands and their application, programming methods and procedures.
- CAD/CAM process chains: 3D CAD models, CAD/CAM programming, automation trends in NC programming, CAD/CAM coupling, overview of CAD/CAM systems, simulation techniques in manufacturing.
- MES (Manufacturing Execution Systems).
- Production control technology.
- Quality management in production: Quality management methods and quality testing, failure mode and effects analysis (FMEA), computer-aided quality assurance (CAQ).
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