The Ottawa-Carleton Institute for Mechanical and Aerospace Engineering Room C406 Colonel By Hall University of Ottawa The Institute Director of the Institute: S. Tavoularis Established in 1984, the institute combines the research strengths and resources of the Departments of Mechanical and Aerospace Engineering at Carleton University and Mechanical Engineering at the University of Ottawa. Programs leading to master's and Ph.D. degrees are available through the institute in a range of fields of mechanical and aerospace engineering. Graduate students may pursue their research on either university campus, depending upon the choice of supervisor. Registration will be at the university most appropriate to the student's program of studies and research. Requests for information and applications for admission may be sent to the director of the institute. Members of the Institute The "home" department of each member is indicated by (C) for the Department of Mechanical and Aerospace Engineering, Carleton University, and by (O) for the Department of Mechanical Engineering, University of Ottawa. F.F. Afagh, Dynamics, Vibrations, Solid Mechanics (C) M. Akben, Metallurgy (O) P.E. Barrington, Aerodynamics, Aeroelasticity (C) Robert Bell, Finite Element Analysis, Stress Analysis, Solid Mechanics (C) M.J. Bibby, Materials and Manufacturing Engineering, Weld Analysis (C) S.C. Cheng, Heat Transfer, Numerical Methods (O) M.C. de Malherbe,* Design, Manufacturing Engineering Processes (C) B.S. Dhillon, Reliability (O) A. Fahim, CAD/CAM, Controls (O) R.C. Flanagan, Dynamics, Internal Combustion Engines (O) P.R. Frise, Fracture Mechanics, Fatigue (C) K.R. Goheen, Controls, CAD/CAM/CIM (C) J.A. Goldak, Computer-Integrated Manufacturing Processes, Finite Element Modeling of Manufacturing (C) D.J. Gorman, Vibrations (O) D.C. Groeneveld,* Heat Transfer, Two Phase Flow (O) Y.M. Haddad, Applied Mechanics, Finite Element Analysis (O) W.L. Hallett, Fluid Mechanics, Combustion (O) Geza Kardos, Design, Fatigue, Fracture Mechanics,CAD, Composite Materials (C) R.J. Kind, Aeronautical Engineering, Industrial Turbomachinery, Wind Engineering (C) James Kirkhope, Stress and Vibrations, Finite Element Analysis (C) A.S. Krausz, Fracture, Plasticity, Professor Emeritus (O) Y. Lee, Heat Transfer, Nuclear Engineering (O) Julius Lukasiewicz,* Aerodynamics, Railway Transportation, Impact of Technology on Society (C) J.M.J. McDill, Adaptive Methods for 3-D Finite Element Analysis (C) R.E. Milane, Combustion (O) S. Mirza, Vibrations, Stress Analysis (O) H. Moustapha,* Turbomachinery, Aerodynamics (C) M.B. Munro, Composite Materials (O) D.S. Necsulescu, Reliability and Control (O) E.G. Plett, Energy Systems, Fluid Mechanics, Thermodynamics and Heat Transfer D. Redekop, Applied Mechanics (O) W.G. Richarz, Aeronautical Engineering, Acoustics, Instrumentation (C) J.T. Rogers, Heat Transfer, Energy Systems, Nuclear Engineering (C) D.L. Russell, Dynamics, Controls, Robotics (C) H.I.H. Saravanamuttoo, Gas Turbine Performance, Engine Health Monitoring (C) J.Z. Sasiadek, Control Systems, Robotics, Microprocessor Applications (C) H.M. Schwartz, Automation, Robotics, Controls (C) S.A. Sjolander, Aerodynamics, Turbomachinery, Wind-Tunnel Engineering (C) D.A. Staley, Spacecraft Dynamics and Control (C) P.V. Straznicky, Design, Light Weight Structures (C) S.M. Taboun, Manufacturing Systems and Industrial Ergonomics (O) C.L. Tan, Solid Mechanics, Boundary Integral and Finite Element Methods (C) S. Tavoularis, Fluid Mechanics, Experimental Techniques (O) William Tyson,* Advanced Materials (C) J.Y. Wong, Vehicle Engineering, Transportation Technology (C) G.S. Vukovich,* Control Systems (C) M.J. Worswick, Solid Mechanics, Stress Analysis, Fracture (C) M.I. Yaras, Turbomachinery, Aerodynamics, Computational Fluid Dynamics (C) Master's Degree Admission Requirements The normal requirement for admission to the master's program is a bachelor's degree with at least high honors standing in mechanical engineering or a related discipline. Program Requirements The requirements for course work are specified in terms of credits: one credit is one hour/week for one term (thirteen weeks). The requirements for the master's degree by thesis are: * Eighteen course credits * Participation in the Mechanical and Aerospace Engineering seminar series * Thesis The requirements for the master's degree by course work are: twenty-seven course credits plus a project equivalent to nine course credits (Engineering 88.598 for Carleton University students; MCG6000 for University of Ottawa students). Doctor of Philosophy Admission Requirements The normal requirement for admission to the Ph.D. program is a master's degree in mechanical or aerospace engineering or a related discipline. Students who have been admitted to the master's program may be permitted to transfer into the Ph.D. program if they show outstanding academic performance and demonstrate significant promise for advanced research. Program Requirements The requirements for the Ph.D. degree (from the master's degree) are: * Eighteen course credits * Participation in the Mechanical and Aerospace Engineering seminar series * Successful completion of qualifying examinations * Thesis. The examining board for all theses will include professors from both departments and an external examiner who is a member of neither university Students who have been permitted to transfer into the Ph.D. program from a master's program require thirty-six course credits for the Ph.D. Graduate Courses In all programs, the student may choose graduate courses from either university with the approval of the adviser or the advisory committee. The available graduate courses are listed below, grouped by subject area. Course descriptions are to be found in the departmental section of the calendar concerned. All courses are of one term duration. Not all courses are necessarily offered during any particular academic year. The following codes identify the department offering the course: "88" Department of Mechanical and Aerospace Engineering, Carleton University "89" Department of Mechanical Engineering, University of Ottawa Thermofluids 88.500 (MCG5300) Fundamentals of Fluid Dynamics 88.501 (MCG5301) Theory of Viscous Flow 88.503 (MCG5303) Incompressible Non-Viscous Flow 88.504 (MCG5304) Compressible Non-Viscous Flow 88.508 (MCG5308) Experimental Methods in Fluid Mechanics 88.509 (MCG5309) Environmental Fluid Mechanics Relating to Energy Utilization 88.521 (MCG5321) Methods of Energy Conversion 88.522 (MCG5380) Safety and Risk Assessment of Nuclear Power 88.530 (MCG5330) Engineering Acoustics 88.531 (MCG5331) Aeroacoustics 88.532 (MCG5332) Instrumentation Techniques 88.543 (MCG5343) Advanced Thermodynamics 88.547 (MCG5347) Conductive and Radiative Heat Transfer 88.548 (MCG5348) Convective Heat and Mass Transfer 88.549 (MCG5349) Two-Phase Flow and Heat Transfer 88.570W (MCG5493) Special Topics in Mechanical and Aerospace Engineering - Energy Management 88.570Y (MCG5495) Special Topics in Mechanical and Aerospace Engineering - Microgravity or Low Gravity Science 88.570Z (MCG5470) Special Topics in Mechanical and Aerospace Engineering - Computational Fluid Dynamics 89.511 (MCG5111) Gas Dynamics 89.531 (MCG5131) Heat Transfer by Conduction 89.532 (MCG5132) Heat Transfer by Convection 89.533 (MCG5133) Heat Transfer by Radiation 89.534 (MCG5134) Heat Transfer with Phase Change 89.536 (MCG5136) Special Studies in Fluid Mechanics and Heat Transfer 89.541 (MCG5141) Statistical Thermodynamics 89.548 (MCG5551) Théorie d'ecoulement visqueux 89.549 (MCG5552) Théorie de turbulence 89.550 (MCG5557) Méthodes numériques en mécanique des fluides 89.551 (MCG5151) Laminar Flow Theory 89.552 (MCG5152) Theory of Turbulence 89.555 (MCG5155) Inviscid Flow Theory 89.556 (MCG5156) Measurement in Fluid Mechanics 89.557 (MCG5157) Computational Fluid Mechanics 89.558 (MCG5158) Industrial Fluid Mechanics 89.561 (MCG5161) Environmental Engineering 89.566 (MCG5166) Nuclear Engineering Fundamentals 89.591 (MCG5191) Combustion in Premixed Systems 89.592 (MCG5192) Combustion in Diffusion Systems Solid Mechanics and Materials 88.517 (MCG5317) Experimental Stress Analysis 88.550 (MCG5350) Advanced Vibration Analysis 88.561 (MCG5361) Creative Problem Solving and Design 88.562 (MCG5362) Failure Prevention (Fracture Mechanics and Fatigue) 88.563 (MCG5381) Lightweight Structures 88.565 (MCG5365) Finite Element Analysis I 88.566 (MCG5366) Finite Element Analysis II 88.567 (MCG5367) The Boundary Integral Equation (BIE) Method 88.568 (MCG5368) Advanced Engineering Materials 88.570H (MCG5478) Special Topics in Mechanical and Aerospace Engineering - Introduction to Random Vibrations 88.570I (MCG5479) Special Topics in Mechanical and Aerospace Engineering - Stability Theory and Applications 89.501 (MCG5101) Theory of Elasticity 89.502 (MCG5102) Advanced Stress Analysis 89.503 (MCG5103) Theory of Perfectly Plastic Solids 89.504 (MCG5104) Theory of Plates and Shells 89.505 (MCG5105) Continuum Mechanics 89.507 (MCG5107) Advanced Dynamics with Applications 89.508 (MCG5108) Finite Element Analysis 89.509 (MCG5109) Advanced Topics in Finite Element Analysis 89.510 (MCG5110) Micromechanics of Solids 89.514 (MCG5114) Analysis and Design of Pressure Vessels 89.517 (MCG5117) Introduction to Composite Materials 89.518 (MCG5118) Introduction to Plasticity 89.519 (MCG5119) Introduction to Fracture Mechanics 89.525 (MCG5125) Fatigue of Materials and Structures 89.526 (MCG5126) Deformation of Materials 89.529 (MCG5129) Hot Working of Metals 89.537 (MCG5137) Special Studies in Solid Mechanics and Materials 89.538 (MCG5138) Advanced Topics in Mechanical Engineering 89.580 (MCG5180) Advanced Topics in Composite Materials 89.581 (MCG5181) Advanced Vibrations 89.582 (MCG5182) Theory of Elastic Instability 89.586 (MCG5186) Non-linear Discontinuous Dynamics and Control Design and Manufacturing 88.552 (MCG5352) Optimal Control Systems 88.553 (MCG5353) Robotics 88.561 (MCG5361) Creative Problem Solving and Design 88.562 (MCG5362) Failure Prevention (Fracture Mechanics and Fatigue) 88.570U (MCG5491) Special Topics in Mechanical and Aerospace Engineering þ Computational Metallurgy 88.574 (MCG5374) Computer Integrated Manufacturing Systems 88.575 (MCG5375) CAD/CAM 89.515 (MCG5115) Non-linear Optimization 89.559 (MCG5159) Advanced Production Planning and Control 89.568 (MCG5168) Industrial Organization 89.569 (MCG5169) Advanced Topics in Reliability Engineering 89.570 (MCG5170) CAD/CAM 89.571 (MCG5171) Applied Reliability Theory 89.572 (MCG5185) Multivariable Digital Control 89.573 (MCG5173) Systems Engineering and Integration 89.576 (MCG5176) Industrial Control Systems 89.577 (MCG5177) Robot Mechanics 89.578 (MCG5178) Advanced Topics in CAD/CAM 89.579 (MCG5179) Flexible Manufacturing Transportation Technology 88.510 (MCG5310) Performance and Economics of Aircraft 88.511 (MCG5311) Dynamics and Aerodynamics of Flight 88.514 (MCG5314) Ground Transportation Systems and Vehicles 88.521 (MCG5321) Methods of Energy Conversion 88.530 (MCG5330) Acoustics and Noise 88.531 (MCG5331) Aeroacoustics 88.541 (MCG5341) Turbomachinery 88.541 (MCG5342) Gas Turbines 88.570V (MCG5492) Special Topics in Mechanical and Aerospace Engineering þ Orbital Mechanics and Spacecraft Control 88.570T (MCG5490) Special Topics in Mechanical and Aerospace Engineering þ Guidance, Navigation and Control General 88.596 (MCG5395) Directed Studies 88.598 (MCG5398) Independent Engineering Study (equivalent to nine course credits) 89.500 (MCG6000) Mechanical Engineering Report( equivalent to nine course credits) In addition, graduate courses offered by departments in other disciplines may be taken for credit with approval by the department in which the student is registered.