2. Critical Analysis of Injection Molding Challenges: Students can critically evaluate current research challenges and innovative approaches in polymer injection molding and actively engage in professional discussions. (k5)

3. Methodological Expertise in Injection Molding: Students can apply, analyze, and contextualize advanced analytical, numerical, data-based, and experimental methods specifically tailored to injection molding processes. (k5)

2. Evaluation of Research Problems: Students can analyze scientific problems related to polymer injection molding, assess potential solutions, and contribute their insights during discussions with peers and experts. (k5)

3. Advanced Application of Scientific Methods: Students are able to select and employ appropriate analytical, numerical, data-based, and experimental methods to address complex research questions in injection molding. (k4)

4. Scientific Communication in Injection Molding: Students are capable of effectively communicating complex injection molding research findings through reports, articles, and presentations. (k5)

2. Principles of scientific writing tailored to the injection molding field, including structuring, argumentation, and referencing standards. (k4)

3. Best practices for presenting injection molding research findings to an expert audience, with a focus on clarity and technical accuracy. (k4)

4. Techniques for moderating and engaging in scientific discussions, specifically addressing injection molding challenges. (k4)

5. Fundamentals of data analysis and its application to injection molding process optimization and experimental research. (k3)

6. Current innovations, challenges, and trends in polymer injection molding research and their implications in industrial and academic contexts. (k3)