Learn more about various concentrations, explore the Curriculum adjust your Course Schedule to fit your time, know the required Tuition Fees, and understand the expected learning outcomes All the information you need to start your academic journey is here.
Concentration
The following is a list of specializations contained in Doctoral Program in Mechanical Engineering Science
Energy Conversion
Materials and Structures
Manufacturing Engineering
Maintenance Engineering and Management
Curriculum
Tuition Fee
Learning Outcomes
Through a top-notch learning process and supported by lecturers who are highly skilled in their fields, graduates of the Doctoral Program in Mechanical Engineering Science are expected to meet the established Learning Objectives, as follows:
| Learning Outcomes | |
| 1 | Able to discover or develop new theories, conceptions, or scientific ideas in the field of Mechanical Engineering, including energy conversion, new and renewable as well as sustainable energy, biomaterial-based composites, noise, green manufacturing, and new/advanced materials; contributing to the development and application of science and/or technology by observing and applying ethical values in their field of expertise, through scientific research produced based on scientific methodology, and logical, critical, systematic, and creative thinking. |
| 2 | Able to design interdisciplinary, multidisciplinary, or transdisciplinary research, including theoretical and/or experimental studies in science, technology, and innovation in the areas of energy conversion, new and renewable as well as sustainable energy, biomaterial-based composites, noise, green manufacturing, and new/advanced materials, presented in the form of a dissertation and articles published in reputable international journals. |
| 3 | Able to select appropriate, up-to-date, cutting-edge research that provides benefits for humanity through interdisciplinary, multidisciplinary, or transdisciplinary approaches in order to develop and/or generate solutions to problems in the areas of energy conversion, new and renewable as well as sustainable energy, biomaterial-based composites, noise, green manufacturing, and new/advanced materials, based on studies of the availability of internal and external resources. |
| 4 | Able to develop research roadmaps in the field of Mechanical Engineering, covering energy conversion, new and renewable as well as sustainable energy, biomaterial-based composites, noise, green manufacturing, and new/advanced materials with interdisciplinary, multidisciplinary, or transdisciplinary approaches, based on studies of key research objectives and their constellation within broader targets. |
| 5 | Able to formulate scientific or technological arguments and solutions in the field of Mechanical Engineering, including energy conversion, new and renewable as well as sustainable energy, biomaterial-based composites, noise, green manufacturing, and new/advanced materials, based on critical views of facts, concepts, principles, or theories that are scientifically and ethically accountable, and communicate them through mass media or directly to society. |
| 6 | Able to demonstrate academic leadership in the management, development, and fostering of resources and organizations under their responsibility. |
| 7 | Able to manage, including storing, auditing, securing, and retrieving research data and information in the field of Mechanical Engineering, covering energy conversion, new and renewable as well as sustainable energy, biomaterial-based composites, noise, green manufacturing, and new/advanced materials under their responsibility. |
| 8 | Able to develop and maintain collegial and professional relationships within their own environment as well as through collaborative networks with research communities outside the institution. |