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Show MFET 3060. Codes, Weld Inspection, and Quality Assurance (3) F 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/L. MFET SI3310. Material Selection and Heat Treat (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. Prerequisites: MFET1210/L, MFET SI2300, CHEM PS/SI1110. Co-requisite: MFETSI3310L. MFET SI3310L. Material Selection and Heat treat Lab (1) Application of theory taught in MFET SI3310. One 2-hour lab per week. Co-requisite: MFET SI3310. MFET 3320. Machine Design (2) F 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 SI2300. MFET 3340. Applied Fluid Power (2) F 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. Prerequisites: MFET SI2300; PHYS PS/SI2010/L or PHYS PS/SI2210/L. Co-requisite: MFET 3340L. MFET 3340L. Applied Fluid Power Lab (1) F Application of the theory taught in MFET 3340. One 2-hr lab per week. Co-requisite: MFET 3340. MFET 3350. Plastic and Composite Manufacturing (2) F Design and processing of plastic and composite materials for industrial applications. Two lectures per week. Prerequisites: CHEM PS/SI1110 or CHEM PS/SI1210. Co-requisite: MFET 3350L MFET 3350L. Plastic and Composite Manufacturing Lab (2) F Application of the theory taught in MFET 3350. Two 2-hr labs per week. Prerequisite/Co-requisite: MFET 3350. MFET 3460. Engineering Design using Solid Modeling (2) 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. Prerequisites: DGET 1060 and TBETE1700. Co-requisite: MFET 3460L. MFET 3460L. Engineering Design using Solid Modeling Lab (1) 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. Prerequisites: DGET 1060 and TBE TE1700. Co-requisite: MFET 3460. MFET 3510. Basics of Supply Chain Management (2) Introductory course for production and inventory management personnel which provides basic definitions and concepts for planning and contiolling 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). Evening classes only. MFET 3550. Manufacturing Supervision (3) 5 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. MFET 3560. Advanced Quality Engineering (2) 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. Evening classes only. MFET 3570. Manufacturing Quality Auditing (2) 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 SI2410 or equivalent. Evening classes only. MFET 3580. Certified Mechanical Inspector (2) 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 CM Certification Exam. (ASQC Series) Evening classes only. MFET 3610. Machining Processes Lecture/Lab II (3) 5 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. MFET 3630. Fusion Joining and Brazing Processes (2) 5 Study of SAW, ESW, GMAW, EG, RW, PAW, PAC, Electron Beam, Laser, Friction, Brazing, and other welding processes. Prerequisites: MFET 2670/L. Co-requisite: MFET 3630L. MFET 3630L. Fusion Joining and Brazing Processes (1) S 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. Prerequisites: MFET 2670/L. Co-requisite: MFET 3630. MFET 3650. Quality Management Institute (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. Prerequisites: MFET 2410, MATH 1010 Intermediate Algebra or equivalent, and Basic Statistics course (MATH 1040) or equivalent. Weber State University 2009-2010 Catalog |