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MET 3300 - Computer Programming Applications of Mechanical Engineering Technology Credits: (3)
Typically taught:
Fall [Full Sem]
Applications of computer programming and computer software to problems in mechanical engineering technology. Lecture plus computer-based laboratory work. Prerequisite: MFET 2300 .
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MET 3400 - Machine Design Credits: (3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Summer [Full Sem]
Application of engineering technology fundamentals to machine design. Techniques involved in designing and selecting individual machine parts. Prerequisite: MFET 2300 .
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MET 3500 - Mechanical Measurements and Instrumentation Credits: (3)
Principles of temperature, pressure, strain, flow, force, and vibration measurements. Techniques of computerized data acquisition and reduction. Students will learn how to specify instrumentation systems, take data and interpret the results. Lecture plus laboratory work in selected topics. Prerequisite: EET 1850 and MFET 2300 .
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MET 3700 - Testing and Failure Analysis Credits: (3)
Typically taught:
Fall [Full Sem]
Mechanical testing of materials, fatigue, fracture, wear, corrosion, embrittlement, failure mechanisms and analysis, case studies of failures. Lecture plus laboratory work. Prerequisite: MET 3150 and MFET 2300 .
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MET 3890 - Cooperative Work Experience Credits: (1-3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Provides academic credit for on-the-job experience. Grade and amount of credit will be determined by the department. Prior consent of the department chair and the employer are required. Prerequisite: Credit or concurrent enrollment in MET 3400 .
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MET 4200 - Mechanical Design with FEA Credits: (3)
Typically taught:
Spring [Full Sem]
Application of engineering technology fundamentals in mechanical design using Finite Element Analysis. Lecture plus computer-based laboratory work. Prerequisite: MET 3400 and MFET 2300 .
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MET 4300 - Heating, Ventilating & Air Conditioning Credits: (3)
Principles of heating, ventilating and air conditioning of buildings. Refrigeration systems, air and water distribution and solar energy. Indoor thermal environmental control. Prerequisite: Permission of instructor.
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MET 4500 - Senior Project Credits: (3)
Typically taught:
Fall [Full Sem]
A mechanical engineering technology project will be selected for team participation. Projects will require planning, analysis, design, development, production, testing and documentation. Prerequisite: MET 4200 ; AAS or AS Degree.
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MET 4510 - Senior Project Credits: (3)
Typically taught:
Spring [Full Sem]
A mechanical engineering technology project will be selected for team participation. Projects will require planning, analysis, design, development, production, testing and documentation. Prerequisite: MET 4500 .
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MET 4650 - Thermal Science Credits: (3)
Typically taught:
Spring [Full Sem]
Fundamental principles of thermal science for mechanical engineering technology. Basic thermal science theory with an emphasis on technological applications and systems. Lecture plus laboratory work in selected thermal science topics. Prerequisite: MATH 1210 , PHYS 2210 and CHEM 1110 or CHEM 1210 .
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MET 4800 - Individual Research in Mechanical Engineering Technology Credits: (1-3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Special individual research and development projects in mechanical engineering technology. Credit and time determined by the student and the faculty project supervisor. Prerequisite: Permission of instructor.
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MET 4830 - Directed Readings Credits: (1-3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Directed individual readings in mechanical engineering technology. Topic selected in consultation with instructor. Prerequisite: Permission of instructor.
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MET 4890 - Cooperative Work Experience Credits: (1-3)
Typically taught:
Spring [Full Sem]
Provides academic credit for on-the-job experience. Grade and amount of credit will be determined by the department. Prior consent of the department chair and the employer are required. Prerequisite: MET 3400 and Permission of instructor.
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MET 4920 - Short Courses, Workshops, Institutes, and Special Programs Credits: (1-3)
Consult the semester class schedule for the current offering under this number. The specific title with the credit authorized for the particular offering will appear on the student transcript.
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MET 4990 - Seminar in Mechanical Engineering Technology Credits: (1)
Guest lectures from local industry, professionalism and engineering ethics, technology and society, and employment preparation. Prerequisite: MET 4500 .
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MFET 1150 - Pre-Professional Seminar in Manufacturing Credits: (1)
Typically taught:
Fall [Full Sem]
An introductory course for students planning to major in Manufacturing Engineering Technology. An explanation of the Manufacturing Engineering Technology curriculum and its place in the occupational spectrum. Current job functions of manufacturing engineering technologists will be discussed by manufacturing engineers and technologists from industry.
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MFET 1210 - Machining Principles Lecture/Lab I Credits: (3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Introduction to machining processes through theory and practice including: setup and operation of the engine lathe & milling machine, machine and tool performance, inspection techniques, basic blueprint reading, and process planning. Students will utilize lab time to complete assignments as required. One lecture per week and two 3-hour labs per week are required.
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MFET 1890 - Cooperative Work Experience Credits: (1-3)
Typically taught:
Fall [Full Sem]
Open to all first year students in Manufacturing Engineering Technology. Department approval required before registration. Provides academic credit for on-the-job experience. Grade and amount of credit will be determined by the department.
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MFET 2150 - Metal Forming, Casting and Welding Credits: (2)
Typically taught:
Fall [Full Sem]
Introduction to industrial metal forming, casting and welding processes, equipment selection, design criteria, shop procedures and terminology. Two one-hour lectures per week and one two-hour lab Co-Requisite: MFET 2150L . (MFET 2150L ) is required.
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MFET 2150L - Metal Forming, Casting & Welding Lab Credits: (1)
Typically taught:
Fall [Full Sem]
Lab application of theories taught in MFET 2150 by use of student projects. Co-Requisite: MFET 2150 .
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MFET 2151 - Metal Forming Lecture/Lab Credits: (1)
Typically taught:
Fall [Full Sem]
Introduction to industrial metal forming processes, equipment selection, design criteria, shop procedures and terminology. Prerequisite: Instructor Approval.
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MFET 2152 - Metal Casting Lecture/Lab Credits: (1)
Typically taught:
Fall [Full Sem]
Introduction to industrial metal casting processes, equipment selection, design criteria, shop procedures and terminology. Prerequisite: Instructor Approval.
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MFET 2153 - Metal Welding Lecture/Lab Credits: (1)
Typically taught:
Fall [Full Sem]
Introduction to industrial metal welding processes, equipment selection, design criteria, shop procedures and terminology. Prerequisite: Instructor Approval.
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MFET 2300 - Statics and Strength of Materials Credits: (5)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Principles of forces, moments, resultants & static equilibrium of force systems, center of gravity, friction, and free body diagram analysis. Also concept of stress and strain, shear, bending moments, torsion, bending stresses in beams and stress resolution and shear. Five lectures per week. Prerequisite: PHYS 2010 /L or PHYS 2210 /L; MATH 1060 or MATH 1080 or MATH 1210 .
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MFET 2360 - Manufacturing Processes and Materials Credits: (3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Survey of industrially important processes used to change material shape and condition for industrial use. Survey of industrially important materials and the principles of material behavior.
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MFET 2410 - Quality Concepts and Statistical Applications Credits: (3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
This is the first course in a series of three designed to impart the Six Sigma body of knowledge. It integrates managerial, technological and statistical concepts across all functions of an organization to ensure that a product is fit for use. Provides a foundation in current quality paradigms and introduces students to software tools (MS Excel and Minitab) used to statistically analyze problems encountered in manufacturing firms. Three lectures per week. Prerequisite: MATH 1010 or higher level.
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MFET 2440 - Computer Numeric Control (CNC) in Manufacturing Credits: (2)
Typically taught:
Spring [Full Sem]
This course is designed for those who have little or no experience with CNC programming, setup or operations. Manual programming, APT programming, and Mazatrol (a conversational programming language) will be taught. In addition, an introduction to CAD/CAM will also be discussed. A three-hour lab, once a week is required. Prerequisite: MATH 1080 or MATH 1050 and MATH 1060 ; MFET 1210 . Co-Requisite: MFET 2440L . May be repeated 3 times up to 6 credit hours.
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MFET 2440L - CNC in Manufacturing Lab Credits: (1)
Applications of the theory taught in MFET 2440 . Introduction to the setup & operation of the CNC lathe and mill. One 3-hour lab per week. Co-Requisite: MFET 2440 .
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MFET 2550 - Basics of Quality Engineering Credits: (2)
Typically taught:
Evening classes only.
Approaches quality from the perspective of the production technician using applied statistics, total quality concepts, inspection techniques and methods and nonconforming material control. Addresses sampling principles used in production management as well as a review of industry accepted standards. (ASQC Series)
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MFET 2610 - Quality Improvement Principles and Techniques Credits: (2)
This course assesses vital knowledge of quality tools and their uses by individuals, from non-traditional quality areas, who are involved in quality improvement projects. The course examines the rapid spread of quality principles and practices throughout organizations, and covers the essentials of quality management for individuals who manage quality programs, but who are not necessarily specialized in traditional quality areas. The course prepares students for the Certified Quality Improvement Associate examination administered by the American Society for Quality.
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MFET 2670 - GMA, FCA and GTA Welding Credits: (1)
Typically taught:
Spring [Full Sem]
Theory and skills course covering Gas Metal Arc Welding, Flux Core Arc Welding, and Gas Tungsten Arc Welding. Prerequisite: MFET 2150 /MFET 2150L or MFET 2153 . Co-Requisite: MFET 2670L .
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MFET 2670L - GMA, FCA and GTA Welding Lab Credits: (2)
Typically taught:
Spring [Full Sem]
A “hands on” lab that reinforces the theory and skills course (MFET 2670 ) covering Gas Metal Arc Welding, Flux Core Arc Welding, and Gas Tungsten Arc Welding. Prerequisite: MFET 2150 /MFET 2150L . Co-Requisite: MFET 2670 .
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MFET 2830 - Directed Readings in Manufacturing Engineering Technology Credits: (1-3)
Typically taught:
Fall [Full Sem]
Individual research on topics requested by industry or which meet special needs of Manufacturing Engineering Technology students. Prerequisite: Departmental approval.
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MFET 2850 - CNC/CAM for Plastics and Composites Lecture/Lab Credits: (3)
Typically taught:
Fall [Full Sem]
Traditional and nontraditional methods for machining organic-matrix and metal-matrix composites are reviewed. Traditional machining procedures are discussed together with the damage introduced into composites by these manipulations. Computer Numerical Control (CNC) codes and Computer Aided Manufacturing are covered, focusing on the production of plastic products and tooling. Machining concepts also including laser, water-jet, electrodischarge, electrochemical spark, and ultrasonic machining. Prerequisite: MFET 1210 /L.
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MFET 2860 - Plastics/Composites Materials & Properties Credits: (3)
Typically taught:
Fall [Full Sem]
Coverage of the most common commercial plastics including their additives, fillers, and fibers; includes common physical tests used to determine material characteristics; writing intensive. Prerequisite: CHEM 1110 .
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MFET 2870 - Design of Plastics/Composites Products Credits: (3)
Typically taught:
Spring [Full Sem]
Designing plastic parts utilizing CAD and CAE technologies for the design and for structural, dimensional, and process evaluation and optimization. A strong emphasis in design principles related to design of plastics products. Also analysis of functional requirements, structural properties, aesthetic qualities and cost relationships. The student will gain experience in product design and material evaluation. Prerequisite: DET 1160 and MFET 2860 .
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MFET 2890 - Cooperative Work Experience Credits: (1-3)
Typically taught:
Fall [Full Sem]
Open to all second year students in Manufacturing Engineering Technology. A continuation of MFET 1890 .
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-
MFET 2920 - Short Courses, Workshops, Institutes and Special Programs Credits: (1-3)
Consult the semester class schedule for the current offering under this number. The specific title and credit authorized will appear on the student transcript. Prerequisite: Departmental approval.
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MFET 3010 - Tool Design Credits: (3)
Principles of workpiece control including: Geometric, dimensional, and mechanical control. Other topics include: process tolerance stacks, design of special tools and gauges, applications in the production of manufactured parts, tool drawings, specifications, and modular tooling. Three lectures per week. Prerequisite: MFET 1210 ; DET 1160 .
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MFET 3060 - Codes, Weld Inspection, and Quality Assurance Credits: (3)
Typically taught:
Fall [Full Sem]
Study of ASME and AWS codes as relating to procedure qualification and welder qualification for fabrication of pressure vessels and structures, and how codes relate to quality assurance and ISO 9000. Prerequisite: MFET 2150 /MFET 2150L or MFET 2153 .
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MFET 3310 - Material Selection and Heat Treat Credits: (2)
Terminology, concepts and principles involved in the selection, specification and processing of engineering materials so they meet design criteria including load, life, and appearance. Testing methods to determine those properties and characteristics. Manual and computer assessing of material data. Two lectures per week. Prerequisite: MFET 1210 /L, MFET 2300 , CHEM 1110 . Co-Requisite: MFET 3310L .
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MFET 3310L - Material Selection and Heat treat Lab Credits: (1)
Application of theory taught in MFET 3310 . One 2-hour lab per week. Co-Requisite: MFET 3310 .
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MFET 3320 - Machine Design Credits: (2)
Application of engineering fundamentals to the design of individual machine components such as shafts, couplings, springs, bearings, gears, fasteners, clutches, and breaks. Students will be required to complete a design project emphasizing manufacturing equipment. Two lectures per week. Prerequisite: MFET 2300 .
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MFET 3340 - Applied Fluid Power Credits: (2)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Principles of fluid mechanics and component operation as they apply to the design of hydraulic and pneumatic systems. Computer programs may be used to analyze and design systems. Two lectures per week. Prerequisite: MFET 2300 or ENGR 2010 and ENGR 2140 ; PHYS 2010 /L or PHYS 2210 /L. Co-Requisite: MFET 3340L .
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MFET 3340L - Applied Fluid Power Lab Credits: (1)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Application of the theory taught in MFET 3340 . One 2-hr lab per week. Co-Requisite: MFET 3340 .
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MFET 3350 - Plastic and Composite Manufacturing Credits: (2)
Typically taught:
Fall [Full Sem]
Design and processing of plastic and composite materials for industrial applications. Two lectures per week. Prerequisite: CHEM 1110 or CHEM 1210 . Co-Requisite: MFET 3350L .
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MFET 3350L - Plastic and Composite Manufacturing Lab Credits: (2)
Typically taught:
Fall [Full Sem]
Application of the theory taught in MFET 3350 . Two 2-hr labs per week. Prerequisite/Co-requisite: MFET 3350 .
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MFET 3460 - Engineering Design using Solid Modeling Credits: (2)
Typically taught:
Fall [Full Sem]
An advanced computer-aided design course using state-of-the-art solid modeling CAD/CAM software. Topics include: 3D parametric solid modeling, applications associativity, design-by-feature, assembly modeling, injection mold design, flat pattern development, design analysis using FEA, realistic rendering, and detailing. Prerequisite: DET 1010 . Co-Requisite: MFET 3460L .
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MFET 3460L - Engineering Design using Solid Modeling Lab Credits: (1)
Typically taught:
Fall [Full Sem]
Lab assignments will include: Fundamentals of 3D parametric solid modeling, Extrude & Revolve Features, Sweep & Loft Features, Assembly Modeling, Injection Mold Design, Flat Pattern Development, Design Analysis using FEA, and others. Prerequisite: DET 1010 and NTM 1700 . Co-Requisite: MFET 3460 .
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MFET 3510 - Basics of Supply Chain Management Credits: (2)
Typically taught:
Evening classes only.
Introductory course for production and inventory management personnel which provides basic definitions and concepts for planning and controlling flow of materials into, through, and out of an organization. Explains fundamental relationships of supply chain from suppliers to customers. Addresses manufacturing systems, forecasting, master planning, material requirements planning, capacity management, production activity control, purchasing, inventory management, distribution, quality management, and Just-in-Time manufacturing. (APICS Series).
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MFET 3550 - Manufacturing Supervision Credits: (3)
Typically taught:
Fall [Online]
Spring [Full Sem]
The application of supervision skills. Students will gain an understanding of; motivation of subordinates, personal leadership theories, problem-solving and decision-making techniques, organizational communication, employee selection, evaluation and training process, and organizational structures. Topics will include; the American Disabilities Act, OSHA and environmental issues, Equal opportunity Employment, and Affirmative Action issues. Three lectures per week.
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MFET 3560 - Advanced Quality Engineering Credits: (2)
Typically taught:
Evening classes only.
Addresses the application of advanced quality techniques by personnel in positions of responsibility such as manufacturing leads and supervisors. Uses statistics, metrology, inspection methods, quality management concepts, and sampling principles to address process decisions involving both overall quality and costs. (ASQC Series). Prerequisite: MFET 2550 .
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MFET 3570 - Manufacturing Quality Auditing Credits: (2)
Typically taught:
Evening classes only.
Utilizes auditing principles and quality management tools and techniques to prepare an individual to plan and conduct, or prepare an organization, for a quality audit. Links directly to process associated with implementation of ISO 9000 standards. Two one-hour lectures per week. (ASQC Series). Prerequisite: MFET 2410 or equivalent.
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MFET 3580 - Certified Mechanical Inspector Credits: (2)
Typically taught:
Evening classes only.
Provides the student with terminology, concepts and tools needed to be professionally competent in advanced quality management. The course will also be helpful to those preparing to take the ASQC CMI Certification Exam. (ASQC Series).
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MFET 3610 - Machining Processes Lecture/Lab II Credits: (3)
The manufacture and assembly of precision and interchangeable parts using conventional lathes, mills, drills, and grinders. Introduction to geometric dimensioning & tolerancing (GD&T), and advanced inspection techniques. Students will utilize lab time to complete assignments as required. One lecture per week and two 3-hour labs per week are required. Prerequisite: MFET 1210 .
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MFET 3630 - Fusion Joining and Brazing Processes Credits: (2)
Typically taught:
Fall [Full Sem]
Study of SAW, ESW, GMAW, EG, RW, PAW, PAC, Electron Beam, Laser, Friction, Brazing, and other welding processes. Prerequisite: MFET 2670 /MFET 2670L . Co-Requisite: MFET 3630L .
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MFET 3630L - Fusion Joining and Brazing Processes Credits: (1)
Typically taught:
Fall [Full Sem]
A “hands-on” lab that reinforces the concepts taught in MFET 3630 of SAW, ESW, GMAW, EG, RW, PAW, PAC, Electron Beam, Laser, Friction, Brazing, and other welding processes. Prerequisite: MFET 2670 /MFET 2670L . Co-Requisite: MFET 3630 .
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MFET 3650 - Quality Management Institute Credits: (3)
This course consists of application process control and problem solving techniques including statistical process control (SPC), measurement systems analysis, and process capability analysis. Students will apply cause-and-effect diagrams, check sheets, sampling, line and bar charts, Pareto charts, scatter diagrams, variation, probability plots, x-R charts, gate repeatability and reproducibility (gage R & R) on course projects. Curriculum will include practical application exercises. Prerequisite: MFET 2410 , MATH 1010 Intermediate Algebra or equivalent, and Basic Statistics course (MATH 1040 ) or equivalent.
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MFET 3710 - Computer Aided Manufacturing and Rapid Prototyping Credits: (2)
Typically taught:
Spring [Full Sem]
This course will introduce and explain concepts behind Computer-Automated Manufacturing (CAM). It will define elements, terms, and concepts involved with CAM. Elements of rapid prototyping will also be covered from conceptual design in solids to production of tooling and parts. This course is designed for those who have the basic understanding of the setup and operation of CNC machine tools and programming. Software will be used to perform the CAM operations, such as part generation and post processing. Prerequisite: MFET 2440 /MFET 2440L , DET 1010 , DET 1160 or MFET 3460 . Co-Requisite: MFET 3710L .
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MFET 3710L - Computer Aided Manufacturing and Rapid Prototyping Lab Credits: (1)
Typically taught:
Spring [Full Sem]
A “hands-on” lab that reinforces the concepts taught in MFET 3710 . Students will learn how to transfer CNC part programs from a PC to the CNC machine controller. Testing, editing and running their part programs on the CNC machines will also be covered. May be repeated twice up to 3 credit hours.
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MFET 3750L - Welding Metallurgy I Lab Credits: (1)
Typically taught:
Fall [Full Sem]
A “hands-on” lab that reinforces the concepts taught in MFET 3750 of metallurgical principles applied to welding and weldability of ferrous metals. Prerequisite: MFET 2150 /MFET 2150L , CHEM 1110 . Co-Requisite: MFET 3750 .
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MFET 3760 - Welding Metallurgy II Credits: (2)
Typically taught:
Spring [Full Sem]
Metallurgical principles applied to welding and weldability of nonferrous metals. Prerequisite: MFET 3750 /MFET 3750L . Co-Requisite: MFET 3760L .
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MFET 3760L - Welding Metallurgy II Lab Credits: (1)
Typically taught:
Spring [Full Sem]
A “hands-on” lab that reinforces the concepts taught in MFET 3760 of metallurgical principles applied to welding and weldability of nonferrous metals. Prerequisite: MFET 3750 /MFET 3750L . Co-Requisite: MFET 3760 .
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MFET 3810 - Statistical Process Control and Reliability Credits: (3)
Typically taught:
Fall [Full Sem]
This is the second course in the Quality series for the MFET program. The course will focus on statistical techniques used in industrial process control charting, acceptance sampling, reliability practices and preventative maintenance. Course will utilize Minitab and Microsoft Excel Spreadsheet software. Three lectures per week. Prerequisite: MFET 2410 .
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MFET 3820 - Nondestructive Testing Credits: (3)
Typically taught:
Spring [Full Sem]
Fundamental concepts relating to liquid penetrant, magnetic particle, ultrasonics, and radiography and other NDT processes. Prerequisite: MATH 1210 and PHYS 2010 or PHYS 2210 .
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MFET 3830 - Reinforced Plastics/Advanced Composite Lecture/Lab Credits: (3)
Typically taught:
Spring [Full Sem]
Polymer and reinforcement systems; material testing; mold design and development; laboratory involvement in reinforced plastics production processes. Prerequisite: MFET 3350 /MFET 3350L and MFET 2860 .
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MFET 3870 - Mold Design and Process Strategies Lecture/Lab Credits: (3)
Typically taught:
Fall [Full Sem]
Overview of mold design and the development of strategies and techniques integrating CAD and CAE technologies for optimizing part quality, moldability, and productivity. Additional study on design and construction of various types of production molds that are used for processing plastics in final shape. Product design in relationship to molding techniques and various techniques and materials used to construct the molds are the major units of study. Prerequisite: MFET 2860 .
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MFET 3890 - Cooperative Work Experience Credits: (1-3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Open to all third year students in Manufacturing Engineering Technology. A continuation of MFET 1890 .
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MFET 3910 - Six Sigma Methods and Tools in Manufacturing Credits: (4)
Typically taught:
Spring [Full Sem]
This is the third and final course in the Quality series for the MFET program. Six Sigma methods use statistical tools to bring about continual improvement of quality in manufactured goods and services and to document that positive change has occurred. These tools include: Failure Mode and Effects Analysis (FMEA), Measurement Systems Analysis, Control Charts, Multi-Vari and Multivariate charts, Process Capability Analysis, and Design of Experiments. Students will learn and apply these methods and tools through class participation and completion of required projects. Course will utilize Minitab and Microsoft Excel spreadsheet software. Prerequisite: MFET 3810 .
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MFET 4050 - Detailed Scheduling and Planning I Credits: (2)
Typically taught:
Evening classes only.
Techniques and practices of detailed scheduling and planning of inventory management including order review methodologies, policies and functions of inventory. Covers lot sizing, safety stock techniques, demand, and Just-in-Time as they relate to detailed scheduling and planning. Prerequisite: MFET 3510 or equivalent. (APICS series).
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MFET 4090 - Welding Power Sources Credits: (2)
Typically taught:
Fall [Full Sem]
Study of power sources used to generate and control voltage and amperage for welding. Two lectures per week. Prerequisite: EET 1850 .
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MFET 4150 - Execution and Control of Operations Credits: (2)
Typically taught:
Evening classes only.
Focuses on prioritizing and sequencing work, executing work plans, implementing controls, reporting activity results, and evaluating and providing feedback on performance. Eval. Prerequisite: MFET 3510 or equivalent. (APICS Series).
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MFET 4200 - Manufacturing Processes Credits: (2)
Typically taught:
Evening classes only.
Manufacturing processes define the methods that companies use in designing, producing, and delivering goods and services required by customers. The manufacturing processes provide the execution component to the other activities of the integrated manufacturing system. Beginning with customer requirements and needs, they design, build, operate, upgrade, and maintain a manufacturing process which is most supportive of and consistent with those needs and requirements. To achieve these objectives, manufacturing processes draw on three different but very interrelated subsystems: industrial facilities management, process design and development, and manufacturing. (APICS Series)
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MFET 4210 - Cost Estimating and Engineering Economics Credits: (2)
Production cost structure, operation costing, break-even analysis, make buy decision, and capital equipment justification. Computer aids are used to analyze cost data. Three lectures per week. Prerequisite: MATH 1080 ; NTM 1700 . Co-Requisite: MFET 4610 .
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MFET 4250 - Detailed Scheduling and Planning Credits: (2)
Typically taught:
Evening classes only.
Detailed explanation of inventory management including order review methodologies, policies and functions of inventory. Covers material requirements planning (MRP) and other material planning and capacity requirements planning techniques. Includes concepts, principles, interfaces, desired characteristics, applications, and supplier relations. Prerequisite: MFET 3510 or equivalent. (APICS Series)
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MFET 4300 - Design of Experiments Credits: (2)
A step-by-step description of procedures used to organize, conduct and evaluate industrial experiments. Emphasizes the usefulness of results and the decision criteria for choosing the proper design. Prerequisite: MFET 2410
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MFET 4310 - Corrosion and Corrosion Control Credits: (2)
Typically taught:
Spring [Full Sem]
Analysis of corrosion mechanisms for ferrous metals, nonferrous metals, and nonmetallic materials, as well as the control of corrosion. Prerequisite: CHEM 1110 and MATH 1080 .
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MFET 4350 - Principles of Lean Manufacturing Credits: (2)
Typically taught:
Spring [Online]
This course introduces students to lean manufacturing and waste reduction concepts such as work standardization, visual manufacturing & workplace organization, value stream mapping, setup reduction & batch size reduction, quality at the source, point of use storage, total productive maintenance, pull systems/kanbans, tack time calculation and cellular/synchronous manufacturing design concepts. A combination of lectures, videos and hands on exercise will be used.
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MFET 4550 - Advanced Quality Principles Credits: (2)
Typically taught:
Evening classes only.
Provides advanced study in all aspects of the application of quality principles to a production environment. The course will involve case study and application of quality theory. Students should have a broad knowledge of organizational structure and planning, quality techniques, customer satisfaction and focus, project management, and human resource management. Cooperative experience in a business/industry is recommended. (ASQC Series) Prerequisite: MFET 2410 or equivalent.
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MFET 4580 - Process Automation Credits: (1)
Typically taught:
Fall [Full Sem]
A study of the elements used in the automation of manufacturing processes including: programmable logic controllers, robotics (servo and non-servo), vision systems, and material handling devices. One 1-hour lecture per week. Prerequisite: EET 1110 or EET 1850 . Co-Requisite: MFET 4580L .
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MFET 4580L - Process Automation Lab Credits: (2)
Typically taught:
Fall [Full Sem]
Students duplicate demonstration sequence of automation equipment and develop new routines in: Controlling servo and non-servo robots, computer-aided manufacturing systems and CIM cell, programmable logic controllers, and other devices used in process automation. Co-Requisite: MFET 4580 .
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MFET 4590 - Production Planning & Process Control Credits: (3)
Typically taught:
Fall [Full Sem]
This course addresses the organization, design, and management of production systems through lean manufacturing, constrain management and mrp/MRPII systems. This course introduces students to work standardization, visual manufacturing, workplace organization, value stream mapping, setup reduction and batch size reduction, total productive maintenance, pull systems/kanbans, and cellular manufacturing design concepts. Students will also be introduced to plant layout concepts, equipment specification issues and related ergonomics/OSHA issues.
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MFET 4610 - Senior Project Planning & Estimating Credits: (3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
This is designed as a capstone course for students and is to be taken in the senior year of their program. The course will teach students fundamental principles in Project Management, Cost Estimating, and Engineering Economics that will be necessary to successfully complete their Senior Project experience. Students must apply and gain departmental approval before entering Senior Project. Approval is based on an interview with department faculty and fulfilling the prerequisites listed on the “Senior Project Requirements Sheet” available from the department secretary. All students approved for Senior project will register for this course regardless of individual project group assignments. Prerequisite: AAS or AS Degree. Co-Requisite: MFET 4610L for manufacturing students or DET 4600 for design graphics students.
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MFET 4610L - Senior Project Lab Credits: (2-2)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Must apply for senior project before March 1 of the previous year. Must have department approval. Approval is based on an interview with department faculty and fulfilling the prerequisites listed on the “Senior Project Requirements Sheet” available from the department secretary. Time: as required to complete the project. Two consecutive semesters. Co-Requisite: MFET 4610 (with MFET 4610L only).
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MFET 4620L - Senior Project Lab Credits: (2-2)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Must apply for senior project before March 1 of the previous year. Must have department approval. Approval is based on an interview with department faculty and fulfilling the prerequisites listed on the “Senior Project Requirements Sheet” available from the department secretary. Time: as required to complete the project. Two consecutive semesters.
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MFET 4650 - Software Quality Engineering Principles Credits: (2)
This course prepares the student to incorporate quality development and implementation as a software design team member. The course provides instruction on concepts, principles and techniques to develop a comprehensive understanding of software inspection, testing, verification, and validation. Participants will learn to implement software development and maintenance processes and methods. This course also prepares the student for the Certified Systems Quality Engineer examination administered through American Society for Quality.
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MFET 4670 - Reliability Engineering Principles Credits: (2)
This course prepares the student to work as a design team member to incorporate reliability considerations into a basic design. Course provides information on application of proven techniques to achieve quality product results. This course also prepares the student for the Certified Reliability Engineer examination administered through American Society for Quality.
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MFET 4750 - Master Planning of Resources Credits: (2)
Typically taught:
Evening classes only.
Explore processes used to develop sales and operations plans, forecast internal and external demand, create the master schedule consistent with business policies, objectives and resource constraints. (APICS series). Prerequisite: MFET 3510 .
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MFET 4770 - Strategic Management of Resources Credits: (2)
Typically taught:
Evening classes only.
The relationship of existing and emerging processes and technologies to manufacturing strategy and supply chain related functions. Addressing aligning resources with strategic plan, integrating operating processes to support the strategic plan, and implementing change. Prerequisite: MFET 3510 and be familiar with concepts addressed in all other APICS courses. (APICS series).
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MFET 4800 - Individual Research in Manufacturing Technology Credits: (1-3)
Special individual research and development projects in Manufacturing and Engineering Technology. Credit and time determined by the student and the faculty project supervisor. Prerequisite: Permission of instructor.
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MFET 4830 - Directed Readings in Manufacturing Engineering Technology Credits: (1-3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Must have department approval.
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MFET 4850 - Integration of Automated Systems Credits: (3)
Typically taught:
Spring [Full Sem]
An Advanced Automation course designed to give the student both theory and practical application in control and integration issues dealing with automated equipment. Selected topics include motor controllers, PID’s, data collection and transfer devices, vision systems, and systems integration issues. Prerequisite: MFET 4580 /MFET 4580L .
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MFET 4890 - Cooperative Work Experience Credits: (1-3)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
Open to all fourth year students in Manufacturing Engineering Technology. A continuation of MFET 1890 .
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MFET 4920 - Short Courses, Workshops, Institutes and Special Programs Credits: (1-3)
Consult the semester class schedule for the current offering under this number. The specific title and credit authorized will appear on the student transcript. Juniors and Seniors only. Faculty approval required.
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MFET 4995 - Certified Manufacturing Technologist (CMfgT) Exam Review Credits: (1)
Typically taught:
Fall [Full Sem]
Spring [Full Sem]
This course is designed to provide a structured review for the student to take the Certified Manufacturing Technologist (CMfgT) Exam.
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MFET 5050 - Gateway to Technology Credits: (5)
Gateway to Technology is a course designed specifically and only for current high school teachers who have been assigned by districts to teach the related Project Lead the Way course in their respective schools. Gateway to Technology introduces the Project Lead the Way series of courses covering the principles of engineering and technology. The course promotes an understanding of the field of technology and covers the continuous evolution of technology, the positive and negative impact of technology on our society, and career opportunities in technology. This course will utilize a train the trainer approach, meaning that the high school teachers will learn both technical content as well as the teaching methodologies they will use in the presentation of the course at their high schools.
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MFET 5100 - Introduction to Engineering Design (IED) Credits: (5)
IED provides students with opportunities to be creative and to apply their decision-making and problem-solving skills to design problems. Students use powerful computer hardware and software (Inventor) to develop 3-D models or solid renderings of objects. Using a Computer Aided Design System, students learn the product design process through creating, analyzing, rendering and producing a model. The course meets for a total of 75 hours over a two-week period and focuses on the content as well as teaching methods appropriate for the course. This course is designed specifically and only for current high school teachers who have been assigned by their schools and districts to teach the Project Lead the Way courses in their respective schools. These courses carry graduate credit for those teachers who would use them as part of a master’s degree program or for recertification.
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MFET 5300 - Principles of Engineering (POE) Credits: (5)
POE is designed to help students understand the field and the career possibilities of engineering and engineering technology. Students work on the problem-solving skills that are used at the college level and in the workplace, and they explore engineering systems and manufacturing processes. Students learn how engineers address concerns about the social and political consequences of technological change. The course meets for a total of 75 hours over a two-week period and focuses on the content as well as teaching methods appropriate for the course. This course is designed specifically and only for current high school teachers who have been assigned by their schools and districts to teach the Project Lead the Way courses in their respective schools. These courses carry graduate credit for those teachers who would use them as part of a master’s degree program or for recertification.
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MFET 5400 - Computer Integrated Manufacturing (CIM) Credits: (5)
CIM is a course that applies principles of prototyping, robotics, and automation. It builds on the solid modeling skills developed in Introduction to Engineering Design. Students use computer-controlled equipment to solve problems by constructing models of their three-dimensional designs. Students are also introduced to the fundamentals of robotics and to how this equipment is used in an automated environment. Students evaluate their design solutions using various techniques and modifications before they produce the prototype. The course meets for a total of 75 hours over a two-week period and focuses on the content as well as teaching methods appropriate for the course. This course is designed specifically and only for current high school teachers who have been assigned by their schools and districts to teach the Project Lead the Way courses in their respective schools. These courses carry graduate credit for those teachers who would use them as part of a master’s degree program or for recertification.
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