Materials Science and Engineering
Bachelor's degree
In Michigan Center (USA)
Description
-
Type
Bachelor's degree
-
Location
Michigan center (USA)
-
Start date
Different dates available
Materials Science and Engineering majors learn to select and create materials used to realize engineering designs in fields such as bioengineering, microelectronics and aerospace. They also learn how to manipulate the elements of matter into the atomic arrangements that insure efficient and cost-effective materials performance, demanded by today’s advanced applications.
Facilities
Location
Start date
Start date
Reviews
Subjects
- Materials
- Engineering
Course programme
Principles of Chemistry
Chemistry Laboratory I
Electronic Instrumentation and Systems
Mechanics of Deformable Solids
Materials Science and Engineering
Electronic, Magnetic, Thermal and Optical Properties of Materials
Phase Equilibria in Materials
Mechanical Properties of Materials
Materials Characterization Methods I
Fundamentals of Microstructural Design
Synthesis and Processing of Materials
Materials Characterization Methods II
Design and Failure Analysis (W)
Probability and Statistics for Engineering
Electrical and Computer Engineering 302 and 303 may be substituted for Electrical and Computer Engineering 345.
Four of the following courses (12 credits):
Manufacturing Processes
Biomaterials and Biocompatibility
Electronic Structure and Bonding in Materials and Devices
Design and Application of Engineering Materials
Ceramic and Refractory Materials
Physical Metallurgy of Ferrous and Alluminum Alloys
Complete at least 6 credits from 400-level courses within the College of Engineering.
Complete at least 3 credits in courses selected from a list of approved technical electives available from the Department of Chemical Engineering and Materials Science.
All of the following courses (16 credits):
Human Gross Anatomy for Pre-Health Professionals
Biomaterials and Biocompatibility
Two of the following courses (6 credits):
Electronic Structure and Bonding in Materials and Devices
Design and Application of Engineering Materials
Ceramics and Refractory Materials
Physical Metallurgy of Ferrous and Aluminum Alloys
Manufacturing Processes
At least 6 credits from a list of approved technical electives.
All of the following courses (12 credits):
Computer Aided Manufacturing
Manufacturing Processes
Design and Application of Engineering Materials
Three of the following courses (9 credits):
Introduction to Business Law
Introduction to Composite Materials
Ceramic and Refractory Materials
Physical Metallurgy of Ferrous and Aluminum Alloys
Completion of this concentration fulfills requirement 2. of the admission requirements for the Master of Science degree in Manufacturing and Engineering Management offered by The Eli Broad College of Business.
All of the following courses (18 credits):
Intermediate Mechanics of Deformable Solids
Computer Aided Design of Structures
Manufacturing Processes
Design and Application of Engineering Materials
Physical Metallurgy of Ferrous and Aluminum Alloys
Spectroscopic and Diffraction Analysis of Materials
One of the following courses (3 credits):
Experimental Mechanics
Introduction to Composite Materials
All the following courses (18 credits):
Fluid Flow and Heat Transfer
Fluid Flow and Heat Transfer
Composite Materials Processing
Composite Materials Processing
Chemical Engineering Principles in Polymers and Materials Systems
Chemical Engineering Principles in Polymers and Materials Systems
Introduction to Composite Materials
Introduction to Composite Materials
Electronic Structure and Bonding in Materials and Devices
Electronic Structure and Bonding in Materials and Devices
Any approved 890-891 independent study or topics course
Any approved 890-891 independent study or topics course
Complete at least 3 credits in courses selected from a list of approved technical electives available from the Department of Chemical Engineering and Materials Science.
Materials Science and Engineering