M.S. in Mechanical Engineering

MECHANICAL ENGINEERING (MSME.)

College of Information Technology and Engineering

The M.S. in Mechanical Engineering (MSME), integrates in-depth knowledge of core areas in mechanical engineering such as mechanics, thermal science, materials and manufacturing, control systems, and product design and development with advanced study in computing and physical sciences. This integration is critical for multidisciplinary areas such as bio and manufacturing engineering, robotics, nanotechnologies, and energy systems. Tools ranging from computer simulation and systems modeling to advanced experimental techniques are developed and applied in order to provide a profounder understanding of fundamental phenomena, processes, and system characteristics in these areas.

The (MSME) prepares students for leadership roles in industry, government and private research. The program also prepares students who desire to pursue further graduate work leading to a Ph.D. degree. Graduates with MS degrees in mechanical engineering pursue careers as product designers, research and development engineers, analysts, consultants, educators and more.

Admission Requirements

Applicants should follow the admissions process described in this catalog or at the Graduate Admissions website: http://www.marshall.edu/graduate/admissionsrequirements.asp. Each applicant for admission to the M.S. in Mechanical Engineering degree program must have an undergraduate engineering degree from either an accredited ABET curriculum or an internationally recognized program and meet one of the following (A, B, or C) admission requirement options:

  1. Pass the PE exam, or
  2. Have an undergraduate cumulative GPA of 3.00 or greater, or
  3. Have an undergraduate cumulative GPA of 2.50 or greater, and satisfy at least two of the following:
    1. Pass the FE exam,
    2. verbal GRE score at least 145,
    3. quantitative GRE score at least 150, and/or
    4. analytical writing GRE score at least 3.0.

Additionally, to be considered for admission, international students must have an iBT TOEFL score of at least 85, or a Paper-Based TOEFL score of at least 527.

Students who do not meet admission requirement options A, B, or C are welcome to apply, and their applications will be considered for admission on a case by case basis. The program admission recommendation will be decided by the MSME degree program coordinator based on a combination of GRE scores and level of performance in undergraduate engineering coursework.

Applicants who do not meet the above criteria but have an undergraduate engineering degree are welcome to apply as non-degree seeking students and take classes toward their MSME degree. If the student has a minimum cumulative graduate GPA of 3.30 in his or her first 9 credit hours of CITE MSME courses, that student may re-apply to the university to be considered for admission to the MSME degree program.

Eligibility to take the PE exam is based primarily on completion of an ABET accredited undergraduate engineering degree in most states. Completion of a MSME graduate degree at an institution with an ABET-accredited undergraduate degree does not fulfill that requirement to take the PE exam.

The program leading to the MSME requires completion of a minimum of 30 graduate credit hours (SCH) of approved course work consisting of no fewer than ten courses. A thesis based on either experimental, computational, or analytical research is optional and may be counted in lieu of up to 6 SCH of course work. In general, attainment of the degree requires two or three semesters of full-time study, although it may also be undertaken on a part-time basis over a correspondingly longer period.

Degree Requirements

Each degree candidate is required to complete at least 30-33 graduate credit hours, depending on the “option” chosen below (project, thesis, or coursework only), with a cumulative Grade Point Average of

3.0 for the courses included in the student’s Plan of Study. At least one-half of the minimum required hours for the degree must be earned in classes numbered 600 or above.

Each degree-seeking student must file an approved “Plan of Study,” developed with a faculty advisor, before the student registers for the 12th credit hour. The M.S. degree in Mechanical Engineering requires a student to take a sequence of courses that shows a “clearly discernible specialty or concentration.” In consultation with his/her advisor, an M.S. student can develop a concentration specifically tailored to his/her interests and objectives, Focus areas include sustainability, materials and manufacturing, bio-mechanical engineering, thermal science, mechanics, design, robotics, and vibrations, controls, and power generation/energy systems. At least three of the Elective Courses (9 CR) must be within the student’s Focus Area at the 600-level.

Students may choose to complete either the “project option,” the “thesis option,” or the “coursework only option” after consultation with their academic advisor.

Project Option (30 hours). The comprehensive project involves the application of coursework completed as part of the degree to a practical problem. Students will work with their advisor to identify an appropriate project and scope. Students must prepare a formal written report and deliver an oral presentation to a committee. Students register for ENGR 699 Comprehensive Project (3 HR) during the semester in which their project will be completed and presented, but preliminary work on the project may commence before that semester.

ENGR 570 Finite Element Analysis 3 hrs
ME 601 Advanced Engineering Analysis I 3 hrs
ME 602 Advanced Engineering Analysis II (or ENGR 610 with advisor approval) 3 hrs
ME 604 Research Methods 3 hrs
Five (5) Elective Courses 15 hrs
ENGR 699 Comprehensive Project 3 hrs

Thesis Option (30 hours). The thesis option involves the completion of 6 HR of research (ENGR 681) under the direction of an advisor on an approved project. The student must prepare a formal thesis proposal (including a statement of work, extensive literature search, and proposed timeline) in consultation with their advisor and present the proposal to their graduate thesis committee, which is formed in consultation with their advisor. The thesis proposal must be defended and approved by the thesis committee prior to the final semester of study (typically completed during first semester of ENGR 682). Students must then summarize their research work in the form of a formal, written thesis and successfully defend it before their thesis committee in order to fulfill the requirements for the degree (typically completed during second semester of ENGR 682). Thesis work is typically conducted over two semesters.

ENGR 570 Finite Element Analysis 3 hrs
ME 601 Advanced Engineering Analysis I 3 hrs
ME 602 Advanced Engineering Analysis II (or ENGR 610 with advisor approval) 3 hrs
ME 604 Research Methods 3 hrs
Four (4) Elective Course 12 hrs
ENGR 682 Research 6 hrs

Coursework Only Option (33 hours). Students can complete 33 hours of coursework and then complete a comprehensive examination within the last two semesters of graduation to fulfill the requirements of their degree. Examinations will be administered once per semester for all students.

ENGR 570 Finite Element Analysis 3 hrs
ME 601 Advanced Engineering Analysis I 3 hrs
ME 602 Advanced Engineering Analysis II (or ENGR 610 with advisor approval) 3 hrs
Eight (8) Elective Courses 24 hrs
Sample of Existing Courses:

ME 515 – Vehicle Dynamics
ME 520 – Introduction to Computational Fluid Dynamics
ME 530 – Renewable Energy
ME 545 – Nano-Materials
ME 560 – Automation and Control
ME 617 – Additive Manufacturing
ME 621 – Corrosion Engineering
ME 625 – Tribology
ME 628 – Applied Biomaterials
ME 630 – Manufacturing Systems
ME 635 – Advanced Vibrations
ME 640 – System Modeling
ME 645 – Nonlinear Dynamics
ME 649 – Sustainable Energy Management