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Show 142 College of Applied Science & Technology 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. MFET 3630L - Fusion Joining and Brazing Processes Credits: (l) 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. 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. 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 postprocessing. Prerequisite: MFET 2440/MFET 2440L, DET 1010, DET 1160 or MFET 3460. Co-Requisite: MFET 3710L. MFET 371 oL - Computer Aided Manufacturing and Rapid Prototyping Lab Credits: (l) 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. MFET 3750 - Welding Metallurgy I Credits: (2) Typically taught: Fall [Full Sem] Metallurgical principles applied to welding and weldability of ferrous metals. Prerequisite: MFET 2150/MFET 2150L or MFET 2153, CHEM 1110 or CHEM 1210. Co-Requisite: MFET 375oL. MFET 3750L - Welding Metallurgy I Lab Credits: (l) 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. 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. MFET 3760L - Welding Metallurgy II Lab Credits: (l) 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. 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. 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. Weber State University 2014-2015 Catalog |
