Transcript University of Cincinnati Department of Mechanical

University of Cincinnati
Mechanical Engineering Program
School of Dynamic Systems
GE-ACE Program
Feb. 1, 2012
SDS at a glance
• Programs
– BS Mechanical Engineering
• ACCEND program (MBA, MEng, MSME)
– BS Mechanical Engineering Technology
– MS & PhD in Mechanical Engineering
• 34 Faculty
• Largest School in the College
– 900 Undergraduate Students
– 200 Graduate Students
Graduate Studies Committee
Solid Mechanics and Nano/Bio Mechanics (Dr. Dong Qian, Chair)
Intelligent Manufacturing and Design (Dr. Sam Huang)
Thermal and Fluid Systems/Energy/Nuclear Eng. (Dr. Milind Jog)
Structural Dynamics, Vibro-Acoustics and Controls (Dr. David Thompson)
Presentation Overview
• ME Degree Requirements
– MS
– PhD: Contact Dr. Qian and/or Dr. Thompson
• Advising and Administrative Details
• Graduate Courses
ME MS Degree – GE ACE Program
Credit Hour Requirements
• MS (semesters): 30 semester credit hours
– ACE courses count as 10 semester credits (3 math, 6 ME and 1
Research and/or thesis)
– 2 semester credits of project/mini-thesis
– 18 classroom semester credits at UC (minimum 12 ME + 3 Math)
• Final oral exam
• Semesters begin in September, 2012.
ME MS Degree – GE ACE Program
•
Have your schedule approved by your assigned advisor. Preliminary approval
will be available from faculty from the graduate studies committee. Have a
Program of Study form approved by your advisor by the end of autumn.
•
MECH/EGFD course substitutions: Many courses in AEEM, MTEN, and other
CEAS programs may be approved by your advisor on a case-by-case basis.
•
Math substitution: Some MECH, EGFD, and other CEAS courses may
substitute for math credit on an advisor-approval basis. Courses generally
include most control, signal processing, computational design and numerical
analysis courses.
•
Normal course load: GE-ACE students entering in 12A will be on campus for
one semester (plus one course via distance learning or part-time) to meet
minimum degree requirements. Consult with your management and GE
Technical Education regarding your expected course load while on campus.
ME MS Degree (continued)
• The ME MS non-thesis degree allows for a two (2) semester credit
project, also known as a “mini-thesis” to GE students.
• Your GE supervisor and/or GE Technical Education will advise you
of what limitations may be in effect regarding your choice of topic.
• Contact your UC advisor and GE Technical Education regarding
additional details related to the mini-thesis process.
Other Rules and Degree Requirements
For more details see the ME Graduate Program
Student Guide
http://www.min.uc.edu/me/academics/grad/mechanical
Required forms may be found at
http://www.min.uc.edu/me/academics/grad/forms
ME Structure-Motion Graduate Courses
(Covers Dynamics & Control and Solid & Nano-mechanics)
Autumn
Adv. Strength of Mat'ls.
(20-EGFD-601)
Fourier (20-MECH-660)
SDA I (20-MECH-794)
Elasticity I (20-EGFD701)
Adv. FEM (20MECH747)
Intro. to Biomech. (20MECH-685)
Acoustics I (20-MECH666)
Modern Control (20EGFD-615)
Winter
FET I (20-EGFD-705)
Spring
FET II (20-EFGD-706)
Vibs II (20-MECH-662)
SDA II (20-MECH-795)
Elasticity II (20-EGFD702)
Solid Mech. of Biomaterials (20-MECH-757)
Tissue Biomech. (20MECH-686)
Vibs III (20-MECH-663)
SDA III (20-MECH-796)
Analytical Vibs of Mech
Syst (20-MECH-880)
Modeling & Sim. of
Solids (20-MECH-621)
Human Body Dynamics
(20-MECH-687)
Vib. of Continuous
Systems (20-MECH-780)
(courses may be subject to change throughout the year)
ME Thermal-Fluids/Energy Graduate Courses
Autumn
Winter
Spring
Viscous Flow - Laminar
(20-EGFD-741)*
Convection Heat Transfer
(20-MECH-772)
Advanced Convection-II
(20-MECH-774)
Introduction to Combustion
(20-EGFD-631)*
Gas Turbine Combustion
(20-EGFD-632)
Expt. Techniques in Fluid
Mechanics (20-MECH633)
Heat Exchanger Design
(20-MECH-694)*
HVAC Design – 1
(20-MECH-698)
HVAC Design – 2
(20-MECH-699)
Numerical Methods in
Transport Phenomena
(20-EGFD-751)*
CFD (20-EGFD-637)
Thermal Energy Storage
(20-MECH-697)
Bio-Heat Transfer (20MECH-735)
Bio-fluid Mechanics (20MECH-635)
Adv. Thermodynamics (20MECH 775)
*Prerequisite courses
(courses are subjected to change throughout the year)
ME Design-Manufacturing Graduate Courses
Autumn
CAD for Mfg. (20-MECH675)
Intelligent System
Control (20-MECH-655)
Introduction to Robotics
(20-MECH-636)
Occupational Safety
Engr. (20-MECH-650)
Computational Design I
(20-MECH-611)
Winter
Design for Mfg. I
(20-MECH-628)
Precision Engr. & Comp.
Met. (20-MECH-766)
Robot Control (20MECH-637)
Safety Engr. & Prod. Liaability (20-MECH-651)
System Safety Engr. I
(20-MECH-652)
Computational Design II
(20-MECH-612)
Quality Control (DL)
(20-MECH-671)
Spring
Design for Mfg. II (20MECH-629)
Micro and Nano Mfg.
(20-MECH-677)
Intelligent Syst. Theory
(20-MECH-674)
Introduction to E-Mfg.
(20-MECH-673)
System Safety Engr. II
(20-MECH-653)
Quality Control (DL)
(20-MECH-671)
(courses are subjected to change throughout the year)
If you have questions
Academics & Graduate Assistantships – Your advisor
UGS, Registration, General Information – Barbara Carter
Stipend & Pay Check – Patrick Brown
Graduate Studies Committee
Dr. Huang/Dave – Design & Manufacturing.
Dr. Jog – Thermal/Fluids/Energy
Dr. Thompson/Qian – Structures & Motion/Solid
Chair of GSC– Dr. Qian
School Director– Dr. Lim