1. Are you keen to deepen your understanding of metal powder behavior and process physics in metal 3D printing?
2. Do you want to learn how to optimize printing parameters (laser/powder/scan strategies) to achieve desired mechanical properties?
3. Are you interested in advanced characterization techniques (e.g., microstructure analysis, residual stress measurement) for printed metal parts?
4. Are you willing to engage in research on post-processing, heat treatment, and surface finishing to improve performance of metal printed components?
5. Do you believe that a two-year master's in Metal Additive Manufacturing will significantly boost your career in advanced manufacturing or aerospace/medical sectors?
6. Are you interested in learning simulation and digital twin techniques to predict and control outcomes in metal 3D printing?
7. Do you enjoy collaborating with mechanical engineers, materials scientists, and quality/control specialists on interdisciplinary projects?
8. Are you prepared to tackle challenges of scaling laboratory-grade metal additive processes to industrial volume while maintaining quality?
9. Do you value sustainability aspects like material reuse, energy efficiency, and lifecycle impact in metal 3D printing?
10. What motivates you most to pursue a master's in Metal Additive Manufacturing?
