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Course Criteria
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3.00 Credits
4812. Numerical Control. A study of the programming of numerically-controlled machine tools. Students program NC machines using manual and computer-assisted techniques. Prereq.: C or better in DDT 2606, and C or better in MET 3707. Concurrent: MET 4812L. 3 s.h.
Corequisite:
MET 4812L
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1.00 Credits
4812L. Numerical Control Lab. A study of the programming of numerically-controlled machine tools. Students program NC machines using manual and computer-assisted techniques. Three hours lab per week. Coreq. or Prereq.: MET 4812. 1 s.h.
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3.00 Credits
4820. Machine Systems. Interdisciplinary capstone course. Analysis and design of complex machine systems incorporating hydraulic and pneumatic subsystems and electrical controls, including PLCs. Comprehensive design projects. Three hours lecture per week. Prereq.: Senior standing in MET and permission of instructor. 3 s.h.
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3.00 Credits
4850. Air Conditioning Principles and Practice. The practical techniques used in the design of heating, ventilating, and air conditioning systems, including load calculations, unit selection, and duct system layout. The laboratory work includes the use of design charts and manufacturer's catalogs in a project. Two hours lecture, two hours lab per week. Prereq.: MET 3711. 3 s.h.
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2.00 Credits
4860. Robotics Technology. An application-oriented course on the technology and use of industrial robots, including classification, tooling, sensors, workcell design, safety, and programming. Prereq.: "C" or better in MET 3714, Concurrent with MET 4860L. 2 s.h.
Corequisite:
MET 4860L
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1.00 Credits
4860L. Robotics Technology Laboratory. Practice in the programming and application of industrial robots and associated equipment. Construction of simulated robotic workcells using actual industrial robots, programmable controllers, sensors, and grippers. Two hours lab per week. Concurrent with MET 4860. Prereq.: MET 3714 "C" or better. 1 s.h.
Corequisite:
MET 4860
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3.00 Credits
4870. Applied Finite Element Method. Introduction of the finite element method with an emphasis on modeling and interpretation of results. Linear static problems are solved using commercial finite element analysis (FEA) software, where the results are verified using theoretical calculations. Topics include trusses, frames, plane stress/strain, and 3-D structures. Three hours lecture. Prereq.: "C" or better in MET 3707 or CCET 3709. 3 s.h.
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1.00 - 4.00 Credits
4890. Special Topics in Mechanical Engineering Technology. New developments in Mechanical Engineering Technology. Subject matter, special prerequisites, and credit hours to be announced in advance of each offering. May be repeated with different subject matter to a maximum of 8 s.h. Prereq.: Senior standing in MET or consent of the instructor. 1-4 s.h.
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1.00 - 4.00 Credits
4890A. Special Topics in Mechanical Engineering Technology Intro to Additive Manufacturing. New developments in Mechanical Engineering Technology. Subject matter, special prerequisites, and credit hours to be announced in advance of each offering. May be repeated with different subject matter to a maximum of 8 s.h. Prereq.: Senior standing in MET or consent of the instructor. 1-4 s.h.
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3.00 Credits
3723. Manufacturing Processes. Introduction to properties and uses of engineering materials. Introduction to mechanical testing methods, metrology, tolerances, testing and inspection; semi-finished product manufacturing; macro-processing (forming, casting, powder metallurgy, metal working, composite fabrication); joining; nontraditional manufacturing processes; and surface processing. Prereq.: MATH 1572 and MECH 2606. 3 s.h.
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