Manufacturing Engineering Tech Manufacturing Engineering Tech General Information 121L. Machining & Inspection I Lab (2) A, S Application of the theory taught in Mfetl21. Two 3-hr labs per week. Corequisite: Mfet 121. 122. Machining Processes II (1) A, W Principles and practices of precision milling, drilling, boring, and an introduction to CNC milling and machine code. One lecture per week. Prerequisite: Mfet 121. Corequisite: Mfet 122L. 122L. Machining Processes II Lab (2) A, W Application of the theory taught in Mfet 122. Two 3-hr. labs per week. Corequisite: Mfet 122. 123. Cutting Tool Technology (2) W, S Determining machining and tool performance: speed and feed, tool geometry, cutting fluid, machine rigidity, and force requirement effects on machining. Tool selection and analysis. Prerequisites: Mfet 122, Math 106. Two lectures per week. Corequisite: Mfet 123L. 123L. Cutting Tool Technology Lab (1) W, S Application of the theory taught in Mfet 123. One 2-hr lab per week. Corequisite: Mfet 123. 165. Welding Processes (1) W (alternate years) Principles and practices in the fundamentals of arc and acetylene welding for those students in majors other than manufacturing, fusion welding of sheet and plate ferrous metals. One lecture per week. Corequisite: Mfet 165L. 165L. Welding Processes Lab (1) W (alternate years) Application of the theory taught in Mfet 165. One 3-hr lab per week. Corequisite: Mfet 165. 189. Cooperative Work Experience (1-4) A, W, S 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. 231. Metal Forming & Casting (2) A, W Introduction to industrial metal forming and casting processes, equipment selection, design criteria, shop procedures and terminology. Two lectures per week. Corequisite: Mfet 231L. 231L. Metal Forming & Casting Lab (1) A, W Application of the theory taught in Mfet 231. One 2-hr lab per week. Corequisite: Mfet 231. 236. Materials and Processes (5) W A study of the materials used in engineering applications and of the manufacturing processes used to shape and/or condition these materials. Five lectures per week. 244. Computer Numerical Control in Manufacturing (2) A, S Applications of Computer Numerical Control (CNC) in manufacturing. Includes machine codes, controller functions, tooling requirements and CNC machine capacity. Prerequisites: Mfet 122 or MT 105; and Math 106. Two lectures per week. Corequisite: Mfet 244L. 244L. Computer Numerical Control in Manufacturing Lab (1) A, S Hands-on programming and operation of CNC equipment. One 2- hr lab per week. Corequisite; Mfet 244. 283. Directed Readings in Manufacturing Engineering Technology (1-4) Individual research on topics requested by industry or which meet special needs of Manufacturing Engineering Technology students. Prerequisite: departmental approval. 289. Cooperative Work Experience (1-4) A, W, S Open to all second year students in Manufacturing Engineering Technology. A continuation of Mfet 189. 292. Short Courses, Workshops, Institutes and Special Programs (1-4) A, W, S Consult the quarterly class schedule for the current offering under this number. The specific title and credit authorized will appear on the student transcript. Prerequisite: departmental approval. 301. Tool Design I (3) A, W Design of special tools, gauges, jigs, fixtures and their application in the production of manufactured parts. Prerequisites: Mfet 123; MET 331; DG 245. Three lectures per week. 302. Tool Design II (3) W, S Design of stamping dies, bending dies, forming dies, joining fixtures and their applications in the production of manufactured parts. Prerequisites: Mfet 231; DG 245. Three lectures per week. 326. Advanced N/C Programming (3) W Preparation of N/C machine code using the APT programming language; includes geometric definitions, looping, pocketing and repetitive routines. CNC tooling and cutting parameters will also be included. Three lectures per week. Prerequisites: Mfet 244; Math 106. 331. Materials Selection and Treatment (4) W, S The 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 materials data. Four lectures per week. Prerequisites: Mfet 123, 331; Chem NS111. Corequisite: Mfet 331L. 331L. Materials Selection and Treatment Lab (1) W, S Application of the theory taught in Mfet 331. One 2-hr lab per week. Corequisite: Mfet 331. 332. Machine Design (3) S Application of engineering fundamentals to the design of individual machine parts such as shafts, power screws, belts, chains, bearings, springs, gears, etc. Prerequisite: MET 331. Three lectures per week. 334. Applied Fluid Power (3) W, S 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. Three lectures per week. Prerequisites: MET 331; Physx NS 111 and NS 114 or Phsx NS261 and NS264. Corequisite: Mfet 334L. 334L. Applied Fluid Power Lab (1) W, S Application of the theory taught in Mfet 334. One 2-hr lab per week. Corequisite: Mfet 334. 335. Plastic Materials and Processing (2) A, W Design and processing of plastic materials for industrial applications. Prerequisites: Chem NS111; Mfet 123. Corequisite: Mfet 335L. 335L. Plastic Materials and Processing Lab (1) A, W Application of the theory taught in Mfet 335. One 3-hr lab per week. Corequisite: Mfet 335. 336. Composite Manufacturing I (2) W, S Structure, processing, properties, and use of composite materials. Various composite manufacturing methods are emphasized. Prerequisite: Mfet 335. Corequisite: Mfet 336L. 336L. Composite Manufacturing I Lab (1) W, S Application of the theory taught in Mfet 336. One 2-hr lab per week. Corequisite: Mfet 336. 337. Composite Manufacturing II (2) S A more indepth study of selected processing and manufacturing methods. Two lectures per week. Prerequisite: Mfet 336. Corequisite: Mfet 337L. 337L. Composite Manufacturing II Lab (1) S Application of the theory taught in Mfet 337. One 2-hr lab per week. Prerequisite: Mfet 336L. Corequisite: Mfet 337. 346. CAD/CAM Applications (3) W, S Applications of computer graphics software to manufacturing design problems, including entity generation, 3D modeling and production drawing layout. Three lectures per week. Prerequisites: DG 120; CISPD170orCSPD101. 347. Special Projects in CAD/CAM (3) A, S Application of computer graphics software to manufacturing process problems including process drawings, documentation and generation of computer numerical control programs. Prerequisites: Mfet 244 and Mfet 346. Three lectures per week. 350. Statistical Quality Control (4) S Statistical techniques used in industrial process control charting, acceptance sampling and reliability practices. Four lectures per week. Prerequisite: Math 241; Mfet 122. 351. Production and Inventory Control (3) Materials management objectives, bills of material, master schedule, part requirements generation, capacity planning, shop floor control. Introduction to computerized MRP system (for APICS Certification). Three lectures per week. 353. Cost Estimating and Engineering Economics (4) A, W Production cost structure, operation costing, break-even analysis, made-buy decision, capital equipment justification. Computer aids are used to analyze cost data. Four lectures per week. Prerequisite: Math 107; CIS PD170 or CS PD101. Sen/fees 355. Total Quality Management (3) A Integrates managerial, technological, and statistical concepts across all functions of an organization to ensure that a product will be fit for use. Three lectures per week. Prerequisite: Mfet 350. 360. Welding Manufacturing Processes (1) W, S Welding process selection, terminology, production planning, tooling and quality control. One lecture per week. Corequisite: Mfet 360L. 360L. Welding Manufacturing Processes Lab (2) W, S Application of the theory taught in Mfet 360. Two 3-hr labs per week. Corequisite: Mfet 360. 389. Cooperative Work Experience (1-4) A, W, S Open to all third year students in Manufacturing Engineering Technology. A continuation of Mfet 189. 399. Professional Seminar in Manufacturing (1) S Professional ethics, human relations in the manufacturing field, interviewing, employer expectations. Written and verbal reporting of current literature studies in the application on new materials, processes and philosophies of manufacturing. 401. Plant Layout and Materials Handling (3) S Arrangement of equipment and processes to maximize production efficiency. Selection of material handling equipment. Computerized data summaries and computer plant layout will be used. Three lectures per week. Prerequisite: CISPD170orCS PD101; DG 120. 405. Inventory Control Technology (3) Objectives, policy development, and functionso f inventory. Systems development, lot sizing, dependent and independent demand, and Just-In-Time as they relate to inventory management and distribution resources management. Prerequisite: Mfet 35 lor equivalent. Three lectures. Evening classes only. 415. Capacity/Production Activity Planning and Control Technology (3) Planning and controlling capacity and production, including interrelationships, requirements, techniques, and applications. Prerequisites: Mfet 351 or equivalent. Three lectures. Evening classes only. 425. Material Requirements Planning Technology (3) MRP concepts, principles, interfaces, system characteristics, mechanics, functions, implementation and operational characteristics. Prerequisite: Mfet 351 or equivalent. Three lectures. Evening classes only. 430. Statistical Process Analysis (3) 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 350; Math 241. Interdisc. Programs Applied Science & Technology Arts& Humanities Business & Economics Education Health Professions Science Social & Behavioral Sciences 70 71 Continuing Education