Mechanical Engineering (Master's Program)
Overview
The Master's programs in Mechanical Engineering allow students to study broad areas within Mechanical Engineering or focus in one of the following fields: Design, Energy and Thermofluids Engineering, or Mechatronics and Manufacturing Engineering.The Master of Applied Science (MASc) and Master of Engineering (MEng) programs in Mechanical Engineering allow a student to study all of the main areas associated with mechanical engineering. In addition, the programs feature three primary fields of study in which students can focus and address key technical areas of the future that are expected to be in high demand by employers: Design, Energy and Thermofluids Engineering, and Mechatronics and Manufacturing Engineering. Please see below for further details regarding the fields of study.
Alternatively, a student can choose to cover many facets of the broad discipline of mechanical engineering. Topics can vary widely from robotics, automation and mechatronics, mechanics, controls and computer-aided design, to
Master of Applied Science (MASc)
The objective of the MASc program in Mechanical Engineering is to prepare students for careers in research, development and advanced engineering. Graduates of the program will be able to work as engineers in research and development or other areas in advanced technology companies or government agencies, or continue their education and pursue a PhD degree. The objectives of the MASc program are achieved through a combination of course work, supervised research, a research seminar and a research thesis.
For the MASc in Mechanical Engineering, students must complete five courses for a total of 15 credits and a thesis worth 15 credits. Students must also successfully complete a non-credit Seminar course. Students who select the Design field will be required to take at least one of the Design courses numbered as 527XG.
Master of Engineering (MEng)
The objective of the MEng program in Mechanical Engineering is to provide the opportunity for engineers in industry to upgrade and expand their skills, including the development of research skills. Graduates of the program will be able to apply what they have learned in a variety of applications in industry, government and academia.
For the course-based option, students must complete 10 courses worth a total of 30 credits, including four core courses which are required to be taken by all students in a Master of Engineering program.
For the project-based option, students must complete 8 courses worth a total of 24 credits - including four core courses which are required to be taken by all students in a Master of Engineering program - and a project worth 6 credits. The master’s project provides students with the opportunity to integrate and synthesize knowledge gained throughout their program of study. The chosen topic will be dependent on the area of specialization of the student.
All MEng students are admitted to the course-based option. Students may request transfer to the project-based option after at least one term of study, if they find a faculty member who is willing to act as their project supervisor.
For full details regarding the degree requirements of these programs, please refer to the Graduate Academic Calendar.
Fields
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Design
This field will train students to understand and employ the synergistic effect between design and innovation as the key for sustaining corporate performance and competitiveness through strategically finding new methodologies for achieving not only a novel solution, but the most optimal solution for a given engineering problem, under provided constraints. Students will acquire new knowledge and skills as well as implement their current knowledge of the design engineering process, concurrent engineering, CAD, CAE, CAM, CIM, strength of materials, machine design, solid mechanics, kinematics and dynamics of machines, calculus, thermodynamics, technical writing and basics of marketing and economics in an integrated course format that focuses on the most advanced real-world design concepts.
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Energy and Thermofluids Engineering
The energy and thermofluids engineering field includes technologies such as renewable energy systems, hydrogen, internal combustion engines, gas turbines, power plants and heating/ventilation/air conditioning (HVAC), as well as related technologies associated with fluid mechanics, heat transfer and thermodynamics.
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Mechatronics and Manufacturing Engineering
The mechatronics and manufacturing engineering field concentrates on computer-controlled, intelligent electromechanical systems, robotics, automation and the development of advanced technologies and materials for improvement of manufacturing processes and systems.
Admissions
Admissions
- Hold a four-year honours undergraduate engineering degree in a relevant field from an accredited engineering program at a Canadian university, or its equivalent from a recognized institution.
- Minimum overall academic standing of a B (GPA: 3.0 on a 4.3 scale or 73 to 76 per cent), with a minimum B in the last two full-time years (four semesters) of undergraduate work or equivalent. B+ is preferred for MASc applicants.
Required supporting documents:
Please see the checklist of required documents for a list of supporting documentation that must be submitted with your application.
Required test scores for English language proficiency:
See English language proficiency for the minimum required test scores for this program.
Please see application deadlines for specific dates. Note that the application deadlines listed are for both the online application and all supporting documentation.
Applications for admission to all graduate studies programs are submitted online. There are five steps you must go through to complete the application process. See application process and requirements for step-by-step instructions.
Many of our graduate programs are extremely competitive; the number of qualified applicants normally exceeds the number of seats available for each intake. Satisfaction of minimum entry requirements does not ensure admission.
Research areas
- Active noise and vibration control
- Advanced composites
- Advanced refrigeration and air conditioning
- Aeroacoustics
- Automotive systems (see Automotive Engineering program)
- Biomass combustion and gasification
- Combined cycle power generation
- Controls
- Dynamics, vibration and noise
- Energy conversion and management
- Engineering design
- Fluid-structure interactions
- Heat transfer, fluid mechanics and multiphase flows
- Hydrogen production, storage, transportation, delivery and use
- Hydrogen, ammonia and fuel cell technologies
- Integrated energy systems
- Manufacturing and materials
- Mechanics of solids and structures
- Mechatronics
- Modelling and simulation of energy systems
- Multi-generation energy systems
- Nanomaterials and structures
- Renewable energy systems (e.g., wind, solar, geothermal)
- Robotics, automation and controls
- Smart energy systems
- Thermal energy storage
Learn more about the research areas within this program and find research experts by visiting the faculty’s website and the university's Expert Centre.
Additional Information
- ENGR 5510G – Foundations of Software Engineering
- ENGR 5520G – Software Development Methods and Tools
- ENGR 5590G – Software Engineering Studio
- ENGR 5550G - Software Testing and Quality Assurance
- ENGR 5560G - Software Security and Dependability
- ENGR 5740G - User Interface Design
- ENGR 5785G - Real-Time Data Analytics for Internet of Things
Please note that courses are subject to change without notice.
Mechanical Engineering, MASc
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Mechanical Engineering, MEng
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MASc applicants
Internal awards and funding
Applicants to research-based graduate programs who are studying full-time are automatically considered for some types of funding at the time of admission.
Types of funding that do not require an application:
- Entrance scholarships
- Minimum funding packages
- Teaching assistantships, research assistantships and graduate research assistantships
For more details on the above funding opportunities, see graduate student awards and funding.
Please note: Part-time students are not eligible for the above funding opportunities.
External awards and funding
Graduate program applicants are encouraged to apply for external awards to help finance their education. The application process differs for each competition, so review the information carefully to determine where and when you must apply. Please note: The majority of these awards are for domestic or permanent residents only.
MEng applicants
Applicants to professional or course-based programs are not normally considered for internal funding sources such as entrance scholarships, minimum funding packages, teaching assistantships, research assistantships or graduate research assistantships.
While external scholarships and awards for graduate students who fall under the above criteria are often limited, we encourage you to explore some of the external scholarship databases available for possible funding opportunities.
Tuition fees for graduate programs are charged on a flat-fee or fee-per-credit basis and vary by program and student status.
For current, specific fees and details on flat-fee versus fee-per-credit programs, please see tuition and fees.
Contact the program:
Faculty of Engineering and Applied Science
905.721.8668 ext. 2988
grad.engineering@ontariotechu.ca
Contact the School of Graduate and Postdoctoral Studies:
905.721.8668 ext. 6209
gradstudies@ontariotechu.ca