Program Overview

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Master of Engineering in Advanced Materials and Manufacturing

The Master of Engineering in Advanced Materials and Manufacturing is a program offered by the University of Ottawa, in collaboration with Carleton University. This program is designed to provide students with advanced knowledge and skills in the field of materials science and engineering, with a focus on manufacturing and materials processing.

Program Overview

The program is offered in two options: a coursework-only option and a coursework-and-project option. The coursework-only option requires students to complete 30 credits of coursework, while the coursework-and-project option requires students to complete 24 credits of coursework and a 6-credit project.

Admission Requirements

To be eligible for admission to the program, applicants must have a bachelor's degree in engineering or a related field, with a minimum average of 70% (B). Applicants must also identify a professor who is willing to supervise their research and project.

Coursework

The program offers a wide range of courses in areas such as materials science, manufacturing, and mechanical engineering. Some of the courses offered include:

• MCG 5104: Theory of Plates and Shells
• MCG 5105: Continuum Mechanics
• MCG 5107: Advanced Dynamics With Applications
• MCG 5108: Finite Element Analysis
• MCG 5109: Advanced Topics in Finite Element Analysis
• MCG 5110: Micromechanics of Solids
• MCG 5111: Gas Dynamics
• MCG 5115: Nonlinear Optimization
• MCG 5120: Micro and Nano Systems
• MCG 5121: Space Mission Analysis and Design
• MCG 5122: Smart Structures
• MCG 5124: Advanced Kinematics
• MCG 5125: Advanced Dynamics
• MCG 5131: Heat Transfer by Conduction
• MCG 5132: Heat Transfer by Convection
• MCG 5133: Heat Transfer by Radiation
• MCG 5134: Heat Transfer With Phase Change
• MCG 5136: Special Studies in Fluid Mechanics and Heat Transfer
• MCG 5138: Advanced Topics in Mechanical Engineering
• MCG 5141: Statistical Thermodynamics
• MCG 5147: Finite-Volume Methods for Compressible Gas Flows
• MCG 5148: High-Performance Parallel Scientific Computing
• MCG 5149: Non-Equilibrium Gas Dynamics
• MCG 5151: Laminar Flow Theory
• MCG 5152: Theory of Turbulence
• MCG 5155: Inviscid Flow Theory
• MCG 5156: Measurement in Fluid Mechanics
• MCG 5157: Numerical Computation of Fluid Dynamics and Heat Transfer
• MCG 5167: Nuclear Reactor Engineering
• MCG 5169: Advanced Topics in Reliability Engineering
• MCG 5170: Computer-Aided Design
• MCG 5171: Applied Reliability Theory
• MCG 5173: Systems Engineering and Integration
• MCG 5177: Robot Mechanics
• MCG 5184: Mechatronics
• MCG 5185: Multivariable Digital Control
• MCG 5186: Non-Linear Discontinuous Dynamics and Control
• MCG 5191: Combustion in Premixed Systems
• MCG 5192: Combustion in Diffusion Systems
• MCG 5300: Fundamentals of Fluid Dynamics
• MCG 5301: Theory of Viscous Flows
• MCG 5303: Incompressible Non-Viscous Flows
• MCG 5304: Compressible Non-Viscous Flows
• MCG 5305: Uninhabited Aircraft Systems Design
• MCG 5306: Theory of Subsonic Flows
• MCG 5307: Theory of Supersonic Flows
• MCG 5308: Experimental Methods in Fluid Mechanics
• MCG 5309: Environmental Fluid Mechanics Relating to Energy Utilization
• MCG 5310: Performance and Economics of V/Stol Aircraft
• MCG 5311: Dynamics and Aerodynamics of Low Speed Flight
• MCG 5314: Ground Transportation Systems and Vehicles
• MCG 5315: Orbital Mechanics and Space Craft Control
• MCG 5321: Methods of Energy Conversion
• MCG 5322: Nuclear Engineering
• MCG 5324: Building Performance Simulation
• MCG 5325: Wind Engineering
• MCG 5326: System Modelling, Dynamics and Control
• MCG 5327: Nonlinear Systems Analysis & Controls
• MCG 5328: 3D Machine Vision: From Robots to the Space Station
• MCG 5329: Space Robotics
• MCG 5330: Engineering Acoustics
• MCG 5331: Aero-Acoustics
• MCG 5332: Instrumentation Techniques
• MCG 5334: Computational Fluid Dynamics of Compressible Flows
• MCG 5341: Turbomachinery
• MCG 5342: Gas Turbines
• MCG 5343: Advanced Thermodynamics
• MCG 5344: Gas Turbine Combustion
• MCG 5347: Conductive and Radioactive Heat Transfer
• MCG 5348: Convective Heat and Mass Transfer
• MCG 5349: Two-Phase Flow and Heat Transfer
• MCG 5350: Advanced Vibration Analysis
• MCG 5352: Optimal Control Systems
• MCG 5353: Robotics
• MCG 5354: Guidance, Navigation and Control
• MCG 5355: Stability Theory and Applications
• MCG 5356: Neuro and Fuzzy Control
• MCG 5361: Creative Problem Solving and Design
• MCG 5365: Finite Element Analysis I
• MCG 5366: Finite Element Analysis II
• MCG 5367: The Boundary Element Method (Bem)
• MCG 5370: Special Topics in Mechanical and Aeronautical Engineering
• MCG 5375: CAD/CAM
• MCG 5376: Special Topics in Mechanical and Aerospace Engineering
• MCG 5380: Safety and Risk Assessment of Nuclear Power
• MCG 5384: Special Topics in Mechanical and Aerospace Engineering
• MCG 5396: Directed Studies
• MCG 5398: Independent Engineering Study
• MCG 5470: Special Topics in Mechanical and Aerospace Engineering
• MCG 5471: Special Topics in Mechanical and Aerospace Engineering
• MCG 5472: Special Topics in Mechanical and Aerospace Engineering
• MCG 5473: Special Topics in Mechanical and Aerospace Engineering
• MCG 5474: Special Topics in Mechanical and Aerospace Engineering
• MCG 5475: Special Topics in Mechanical and Aerospace Engineering
• MCG 5476: Special Topics in Mechanical and Aerospace Engineering
• MCG 5477: Special Topics in Mechanical and Aerospace Engineering
• MCG 5478: Special Topics in Mechanical and Aerospace Engineering
• MCG 5479: Special Topics in Mechanical and Aerospace Engineering
• MCG 5480: Special Topics in Mechanical and Aerospace Engineering
• MCG 5481: Special Topics in Mechanical and Aerospace Engineering
• MCG 5482: Special Topics in Mechanical and Aerospace Engineering
• MCG 5483: Fundamentals of Combustion
• MCG 5484: Special Topics in Mechanical and Aerospace Engineering
• MCG 5485: Special Topics in Mechanical and Aerospace Engineering
• MCG 5486: Special Topics an Mechanical and Aerospace Engineering
• MCG 5487: Special Topics in Mechanical and Aerospace Engineering
• MCG 5488: Special Topics in Mechanical and Aerospace Engineering
• MCG 5489: Special Topics in Mechanical and Aerospace Engineering
• MCG 5490: Special Topics in Mechanical and Aerospace Engineering
• MCG 5491: Special Topics in Mechanical and Aerospace Engineering
• MCG 5492: Special Topics in Mechanical and Aerospace Engineering
• MCG 5493: Special Topics in Mechanical and Aerospace Engineering
• MCG 5494: Special Topics in Mechanical and Aerospace Engineering
• MCG 5495: Special Topics in Mechanical and Aerospace Engineering
• MCG 5551: Th廩rie d'嶰oulement visqueux
• MCG 5552: Th廩rie de turbulence
• MCG 5557: M彋hodes num廨iques en m嶰anique
• MCG 5900: S幦inaire de M.A.Sc.
• MCG 5947: S幦inaire de ma褾rise en ing幯ierie
• MCG 6998: Projet
• MCG 9900: S幦inaire de doctorat
• MCG 9997: Pr廧aration du rapport de candidature au doctorat
• MCG 9998: Examen g幯廨al du doctorat

Research Areas

The program has several research areas, including:

• Advanced materials and manufacturing
• Aerospace engineering
• Biomedical engineering
• Energy systems
• Mechanical engineering
• Mechatronics
• Robotics
• Thermal engineering

Faculty

The program is taught by a team of experienced faculty members who are experts in their fields. Some of the faculty members include:

• Professor [Name], Department of Mechanical Engineering
• Professor [Name], Department of Aerospace Engineering
• Professor [Name], Department of Materials Science and Engineering

Facilities

The program has access to state-of-the-art facilities, including:

• Advanced materials laboratory
• Aerospace engineering laboratory
• Biomedical engineering laboratory
• Energy systems laboratory
• Mechanical engineering laboratory
• Mechatronics laboratory
• Robotics laboratory
• Thermal engineering laboratory

Career Opportunities

Graduates of the program can pursue careers in a variety of fields, including:

• Advanced materials and manufacturing
• Aerospace engineering
• Biomedical engineering
• Energy systems
• Mechanical engineering
• Mechatronics
• Robotics
• Thermal engineering

Some potential employers include:

• Aerospace companies
• Automotive companies
• Biomedical companies
• Energy companies
• Manufacturing companies
• Mechanical engineering companies
• Mechatronics companies
• Robotics companies
• Thermal engineering companies

Tuition Fees

The tuition fees for the program vary depending on the student's residency status and the number of credits taken. Some estimated tuition fees include:

• Canadian students: $2,500 - $5,000 per semester
• International students: $5,000 - $10,000 per semester

Scholarships and Funding

The program offers several scholarships and funding opportunities to help students finance their education. Some of these include:

• Entrance scholarships
• Merit-based scholarships
• Need-based scholarships
• Research assistantships
• Teaching assistantships

Contact Information

For more information about the program, please contact:

• Department of Mechanical Engineering
• University of Ottawa
• 161 Louis-Pasteur Pvt
• Ottawa, ON K1N 6N5
• Canada

Phone: 613-562-5800 Email: mech@uottawa.ca

Conclusion

The Master of Engineering in Advanced Materials and Manufacturing is a comprehensive program that provides students with advanced knowledge and skills in the field of materials science and engineering. With its strong research focus, state-of-the-art facilities, and experienced faculty members, this program is an excellent choice for students who want to pursue a career in advanced materials and manufacturing.