60 61 DEGREE REQ GEN ED COURSES 3310L. Material Selection and Heat treat Lab (2) 3580. Certified Mechanical Inspector A. Application of theory taught in MfET 3310. Two 2-hour labs per week. Corequisite: MfET 3310. 3320. Machine Design (2) S$ Application of engineering fundamentals to the design of individual (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 CMI Certification Exam. (ASQC Series) Evening classes only. machine components such as shafts, couplings, springs, bearings, gears, fasteners, clutches, and breaks. Students will be required to 3610. Machining Processes II (1) S$ The manufacture and assembly of precision and interchangeable complete a design project emphazing manufacturing equipment. parts using conventional lathes, mills, drills, and grinders. Introduction to geometric dimensioning & tolerancing (GD&T), Two lectures per week. Prerequisites: MfET 2300. 3340. Applied Fluid Power (2) A 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. Phsx PS2010/L or Phsx PS2210/L. Prerequisites: MfET 2300; Corequisite: MfET 3340L. 3340L. Applied Fluid Power Lab (1) A Application of the theory taught in MfET 3340. One 2-hr lab per week. Corequisite: MfET 3340. 3350. Plastic and Composite Manufacturing (2) S$ Design and processing of plastic and composite materials for industrial applications. Two lectures per week. Prerequisites: Chem PS1110; MfET 1210/1210L. Corequisite: MfET 3350L 3350L. Plastic and Composite Manufacturing Lab (2) S$ Application of the theory taught in MfET 3350. Two 2-hr labs per week. Prerequisite: Corequisite: MfET 3350. 3460. CAD/CAM Modeling Techniques (2) A, S$ An advanced course in computer-aided design and computer-aided manufacturing applications. Students learn methods of geometric construction and other capabilities of 3D geometric modeling using surfaces and solids in SDRC Master Series IDEAS CAD/CAM system. Students will complete a series of laboratory assignments in an open lab. Two lectures per week. Prerequisites: DG 1250; TBE 1700. 3470. Applications in CAD/CAM I (2) A, § Use of 2D, 3D Wireframe, and Solids Modeling to prepare engineering documentation and model analysis for Manufacturing. Course uses commercially available CATIA software. Students will complete a series of laboratory assignments and term projects in an open lab environment. Two lectures per week. 3510. Production and Inventory Control (2) Materials management objectives, bills of material, master schedule, part requirements generation, capacity planning, shop floor control. Introduction to computerized MRP system (APICS Series). Three lectures per week. Evening classes only. 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. 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 onehour lectures per week. (ASQC Series). Prerequisite: MfET 2410 or equivalent. Evening classes only. WEBER STATE and advanced inspection techniques. One lecture per week. Prerequisite: MfET 1210/1210L. Corequisite: MfET 3610L 3610L. Machining Processes II Lab (2) S$ Refer to course description for MfET 3610. Students will utilize lab time to complete assignments as required. Two 3-hour labs per week are required. Corequisite: MfET 3610. 3890. Cooperative Work Experience (1-3) A, $ Open to all third year students in Manufacturing Engineering Technology. A continuation of MfET 1890. 4050. Inventory Control Technology (2) Objectives, policy development, and functions of 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 3510 or equivalent. (APICS Series) Evening classes only. 4150. Capacity/Production Activity Planning and Control Technology (2) Planning and controlling capacity and production, including interrelationships, requirements, techniques, and applications. (APICS Series) Prerequisites: MfET 3510 or equivalent. Two lectures. Evening classes only. 4200. Manufacturing Processes (2) 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) Evening classes only. 4210. Cost Estimating and Engineering Economics (2) A 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 QL1050; TBE 1700. Corequisite: MfET 4610. 4250. Material Requirements Planning Technology (2) MRP concepts, principles, interfaces, system characteristics, mechanics, functions, implementation and operational characteristics. Prerequisite: MfET 3510 or equivalent. (APICS Series) Two lectures. Evening classes only. 4300. Design of Experiments (2) A 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 UNIVERSITY 4310. Applications in CAD/CAM II (2) 4770. Systems & Technologies S$ Students will work in project teams in generating engineering design and manufacturing documentation from CAD models. The documentation will include process plans, bills of material, and machine code. Prerequisite: DG 1250, DG 2250, MfET 1210/L, MfET 2440/L, MfET 3460 or MfET 3470. 4350. Just-In-Time Technology (2) Benefits, objectives, scope, organization, and management considerations of JIT. Techniques, integration, application, and implementation. Prerequisite: MfET 3510 or equivalent. (APICS Series) Two lectures. Evening classes only. 4550. Advanced Quality Principles (2) 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. Evening classes only. 4580. Process Automation (2) Lab (2) 4590. Production Planning and Process Control (3) A Organization, design, and management of production systems. Includes topics addressing Manufacturing Analysis, Inventory Control, Process Capability, Equipment specifications and Manufacturing Economics. Fundamentals of Ergonomics and OSHA requirements will also be discussed. Three lectures per week. 4600. Manufacturing Simulation (3) S$ Discrete-event simulation of manufacturing systems, as a tool for developing more responsive systems. Simulation is shown to be a viable method of predicting outcomes in a stochastic system. Modeling assignments include: material handling constructs, probability distributions, logical branching, and report analysis. Prerequisites: MfET 3010, MfET 2410 and MfET 4590. (2-2) A, S$ 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 Applied Sci PRENGR CS EET MFET MET = 4830. Directed Readings in Manufacturing Engineering Technology (1-3) Must have department approval. 4890. Cooperative Work Experience (1-3) A, § Open to all fourth year students in Manufacturing Engineering Technology. A continuation of MfET 1890. Institutes and Special Programs (1-3) Consult the quarterly 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. Advisors: Kirk D. Hagen, Robert P. Parker, Carl G. Wood Mechanical engineering technology is the practical application of mechanical engineering. Mechanical engineering technologists play an integral role in product design and manufacturing process cycles which include planning, design, analysis, testing and documentation. They utilize skills in materials science, engineering mechanics, thermal science, design, instrumentation and technical writing. The curriculum includes problem-solving courses such as statics, strength of materials, dynamics, machine design, mechanisms, thermodynamics, fluid mechanics and heat transfer that are based on engineering science and mathematics. Integrated into many of the courses are laboratory and project oriented experiences that teach the practical, hands-on aspects of mechanical engineering technology. A balanced blend of engineering science and practical applications provides the mechanical engineering technologist the knowledge and skills needed to successfully compete in the technical work force. Mechanical engineering technology provides an exciting, creative and rewarding career in a wide range of industries including aerospace, automotive, electronics, manufacturing, medical equipment, mining and power generation. MECHANICAL ENGINEERING LOR consecutive semesters. 4750. Master Planning Technology (2) Forecasting, planning, developing, managing, and maintaining the master production schedule. Prerequisites: MfET 3510 and MfET 4250. Three lectures. Evening classes only. 4800. Individual Research in Manufacturing Technology (1-3) A,S 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. HNRS & BIS LIBSCI ws S Students duplicate demonstration sequence of automation equipment and develop new routines in: Controlling servo and non-servo robots, computer-aided manufacturing systems & CIM cell, programmable logic controllers, and other devices used in process automation. Corequisite: MfET 4580. 4610, 4620. Senior Project The relationship of systems and technologies to manufacturing strategic planning and to the functions of production and inventory management. Existing and emerging systems and technologies needs and the synergy to provide positive results in the production and inventory management environment. Evening classes only. (APICS Series) Evening classes only. 4920. Short Courses, Workshops, A A study of the elements used in the automation of manufacturing processes including: robotics (servo & non-servo), programmable controllers, material handling devices, and flexible manufacturing cells. Two lectures per week. Prerequisite: MfET 2440/2440L, MfET 3010, TBE 1700 ; EET 1850/1850L. Corequisite: MfET 4580L 4580L. Process Automation (2) (APICS Series) WEBER STATE TECHNOLOGY DEGREE (B.S) Accredited by the Technology Accreditation Commission of the Accreditation Board for Engineering and Technology (TAC/ABET) » Program Prerequisite: Complete the requirements for the A.A.S. degree in Mechanical Engineering Technology. » Minor: Not Required. UNIVERSITY RESTHY BOTANY CHEM GEOSCI MATH MATHED MICRO PHSX ZOOL Social & Behavioral C) ECON GEOGR HIST POLSC PHILO PSYCH SOCLWK GERONT SOCLGY ANTHRO AEROSP MILSCI NAVSCI