Bachelor of Science in Materials Science and Engineering - Structural and Functional Materials
The materials science and engineering undergraduate program offers a BS degree in Materials Science and Engineering with concentrations in Polymer and Fiber materials, Structural and Functional materials and Biomaterials. This versatile degree combines traditional instruction in ceramic, metallurgy, and polymer and fiber science and engineering with modern materials, including nano-, bio-, composite, electronic, and optical and magnetic materials. Freshmen and sophomores study basic chemistry, physics, mathematics, and engineering science and are introduced to the fundamental aspects of both hard and soft materials. Two English courses taken in the freshman year provide the foundation for further instruction in communications that is integrated throughout the curriculum. Juniors and seniors take courses in the engineering and science of materials including the details of materials processing, structure, and properties. The curriculum culminates in a two-course senior design sequence in which students work in teams to design a material, component, or process using previously learned skills and knowledge.
Five concentration related courses provide flexibility that allow students in their junior-senior years to focus in a particular area of materials. Five hours of free electives allows students to further specialize or to pursue other interests. Courses in the humanities/fine arts and social sciences ensure that graduates appreciate the role of engineering in today's global society.
The mission of the Bachelor of Science in Materials Science and Engineering program is to produce graduates well-rounded in the fundamentals of materials science and engineering who are prepared to meet the related needs of industry and government, and prepared for advanced academic study in materials related disciplines. This will be accomplished by providing students with up-to-date knowledge and skills through coursework, modern laboratories, opportunities to conduct cutting edge research with distinguished faculty mentors, and opportunities to participate in leadership and service activities.
Program Educational Objectives
The general educational objective of the Materials Science and Engineering undergraduate program is to provide its graduates with the fundamental knowledge to function effectively in materials-related positions in industry, government, and academics. The following specific Program Educational Objectives were established to ensure the attainment of this general objective consistent with the visions and missions of Georgia Tech and the College of Engineering, and ABET Criteria for Evaluating Engineering Programs:
- To produce graduates with the fundamental knowledge and skills to function effectively in materials science and engineering related positions in industry and government, or to successfully pursue advanced study.
- To produce graduates who advance in their chosen fields.
- To produce graduates who function effectively in the global arena.
In order to encourage students to explore subjects of personal or professional interest without jeopardizing their GPA, the Institute has a limited pass/fail option. The policy of the School of Materials Science and Engineering regarding the use of pass/fail hours for credit is as follows: no course specifically required by name and number by the materials science and engineering curriculum may be taken on a pass/fail basis and used toward graduation, unless the course is offered only on that basis.
In cases of deficiencies obtained for the intended graduation term, refer to Section VII (on Deficiencies) of the Rules and Regulations published in the on-line General Catalog. Note that a deficiency (e.g., a single D deficiency) obtained the intended graduation term will delay graduation by at least one term.
Students transferring into Materials Science and Engineering from another university or major should meet with the Associate Chair for Undergraduate Programs to discuss possible course substitutions and plan their remaining coursework.
|APPH 1040||Scientific Foundations of Health||2|
|or APPH 1050||The Science of Physical Activity and Health|
|Core A - Essential Skills|
|ENGL 1101||English Composition I||3|
|ENGL 1102||English Composition II||3|
|MATH 1552||Integral Calculus||4|
|Core B - Institutional Options|
|CS 1371||Computing for Engineers||3|
|Core C - Humanities|
|Core D - Science, Math, & Technology|
|PHYS 2211||Introductory Physics I 1||4|
|PHYS 2212||Introductory Physics II 2||4|
|MATH 1551||Differential Calculus||2|
|MATH 1553||Introduction to Linear Algebra||2|
|Core E - Social Sciences|
|Select one of the following:||3|
|The United States to 1877|
|The United States since 1877|
|American Government in Comparative Perspective|
|Government of the United States|
|American Constitutional Issues|
|Select one of the following:||3|
|Economic Analysis and Policy Problems|
|Principles of Macroeconomics|
|Principles of Microeconomics|
|Core F - Courses Related to Major|
|CHEM 1211K||Chemical Principles I||4|
|CHEM 1212K||Chemical Principles II||4|
|CHEM 1315||Survey of Organic Chemistry||3|
|MATH 2551||Multivariable Calculus||4|
|MATH 2552||Differential Equations||4|
|Ethics Requirement 4|
|MSE 1111||Introduction to Materials Science and Engineering||1|
|MSE 2001||Principles and Applications of Engineering Materials||3|
|MSE 2021||Materials Characterization||4|
|MSE 3001||Chemical Thermodynamics of Materials||3|
|MSE 3002||Structural Transformations in Metallic, Ceramic, and Polymeric Systems||3|
|MSE 3005||Mechanical Behavior of Materials||3|
|MSE 3015||Electrical, Optical and Magnetic Properties||3|
|MSE 3021||Materials Laboratory I||2|
|MSE 3025||Statistics and Numerical Methods in Materials Science and Engineering||3|
|MSE 3210||Transport Phenomena||3|
|MSE 4022||Materials Laboratory II||2|
|MSE 4410||Capstone Engineering Design I||3|
|MSE 4420||Capstone Engineering Design II||3|
|MSE 4775||Polymer Science and Engineering I: Formation and Properties||3|
|COE 3001||Mechanics of Deformable Bodies||3|
|ECE 3710||Circuits and Electronics||2|
|ECE 3741||Instrumentation and Electronics Lab||1|
|ISYE 3025||Essentials of Engineering Economy||1|
|Structural & Functional Materials Concentration|
|MSE 4002||Ceramic Materials: Properties, Processing, Applications||3|
|MSE 4006||Processing and Applications of Engineering Alloys||3|
|MSE 4010||Environmental Degradation||3|
|Select one of the following:||6|
|Introduction to Engineering Graphics and Visualization|
|Thermal and Transport Properties of Materials|
|Operations and Management Methods|
|Polymer and Fiber Processing|
|Materials in Electronic Applications|
|Fiber Product Manufacturing|
|Industrial Ctrls In MFG|
|Fundamentals of Nanomaterials and Nanostructures|
|Soft Nano and Bio Materials|
|Introduction to Biomaterials|
|Electronics Packaging Assembly, Reliability, Thermal Management, and Test|
|Electronic Packaging Substrate Fabrication|
|Mechanical Behavior of Composites|
|Composite Materials and Processing|
|Free Electives 3,5||5|
|Total Credit Hours||132|
Pass-fail only allowed for Free Electives, Humanities, and Social Sciences.
If PHYS 2231 is taken, extra hour goes to Free Electives.
If PHYS 2232 is taken, extra hour goes to Free Electives.
MATH 1113 and PHYS 2XXX (AP Credit) are not allowed.
ME 1770 is recommended as a Free Elective, depending upon whether the student wishes to enter the work force directly after graduation or intends to pursue a graduate degree. Consultation with the academic advisor is highly recommended.
Since 1912, Georgia Tech has offered a five-year Undergraduate Cooperative Program to those students who wish to combine career-related work experience with classroom studies. The program is the fourth oldest of its kind in the world.
Students typically alternate between industrial assignments and classroom studies until they complete at least three terms of work (two of which must be fall or spring). Co-op students complete the same coursework on campus that is completed by non-co-op students. Most co-op students begin the program as freshman or sophomores and are can be classified as full-time students regardless whether they are attending classes on campus or are full-time at an employer's location.
Participants have the opportunity to develop career interests, gain hands-on work experience, develop human relation skills and earn a paycheck. Graduates of the program receive a bachelor's degree with the Cooperative Plan Designation.
Students can also complete work assignments in a foreign country as part of the International Cooperative Program. This program is a great opportunity to utilize foreign language skills, gain a global perspective, and experience a diverse culture. Proficiency in a foreign language is necessary to earn the International Cooperative Plan degree designation. For more information on the Cooperative Program, visit: www.coop.gatech.edu.
The Undergraduate Professional Internship Program is for students who do not participate in the Cooperative Program, but want some career-related work experience before graduation. Students generally work for one semester, usually in the summer, with an option for more work. Students must have completed at least thirty hours of coursework at Georgia Tech before they can participate in the program. For more details, visit: www.upi.gatech.edu.
In addition, there is a Work Abroad Program (www.workabroad.gatech.edu), which complements a student's formal education with paid international work experience directly related to Materials Science and Engineering. Participating students typically include juniors and seniors. The international work assignments are designed to include practical training, cross-cultural exposure and learning, and the acquisition of professional skills.
For more information about all of the programs in the Center for Career Discovery and Development, visit www.careerdiscovery.gatech.edu.
The Materials Science and Engineering undergraduate program offers a Research Option that allows students to participate in undergraduate research in faculty laboratories. The words "Research Option in Materials Science and Engineering" will appear on the transcript of each student completing the requirements to indicate that the student has had a substantial, in-depth, research experience.
The requirements for the "Research Option" in Materials Science and Engineering are:
- Selection of a faculty advisor and research topic in conjunction with the faculty advisor. The topic and expected scope of the project must be approved in advance by the MSE Undergraduate Curriculum Committee. A key criterion will be whether the research may lead to a publishable paper.
- Completion of nine units (see item 3 below) of supervised research, over a period of at least two, but preferably three, terms. Research may be either for pay or credit. At least six credit hours must involve work on a single research project.
- Registration in nine hours of undergraduate research courses MSE 2698 and MSE 4698 (for pay), or MSE 2699 and MSE 4699 (for credit). MSE 2699 or MSE 4699 can be used to satisfy the free elective requirements of the BS degree in MSE.
- Completion of LMC 4701 Undergraduate Research Proposal Writing (one hr. credit typically taken during the first or second semester of research). The student should write a Research Proposal while taking this class.
- Obtain approval of the Research Proposal from the MSE Undergraduate Curriculum Committee. This is required before taking LMC 4702.
- Completion of LMC 4702 (one hr. credit). This course is taken during the term in which the thesis is written.
- Have research thesis approved by the faculty advisor and one other MSE faculty member approved by the MSE Undergraduate Curriculum Committee. The thesis will be evaluated on the basis of publishability, originality, creativity, and clarity. The MSE Undergraduate Curriculum Committee must approve each "Research Option" awarded under the BS MSE program.