MANUFACTURING ENGINEERING TECHNOLOGY BACHELOR OF INTEGRATED STUDIES (B.I.S.) EMPHASIS AMERICAN PRODUCTION AND INVENTORY CONTROL SOCIETY (APICS) Advisor: Andy Drake 801-626-7107 » Program Prerequisite: Refer to the Bachelor of Integrated Studies Program for the general and specific requirements for the BIS degree. » Credit Hour Requirements: A total of 18 credit hours of courses is required for the APICS emphasis portion of this degree. B.I.S. Options in Production and Inventory Control The Manufacturing Engineering Technology department offers those courses required by the American Production and Inventory Control Society (APICS) for a continuing education certificate in Production and Inventory Control Technology. The courses indicated below with an asterisk (*) prepare one to take the APICS Certification Exam as well as receive the above certificate. In addition, if these courses are taken in conjunction with the other courses listed below or other courses approved by the department chair, all of these may then be used to fill one of the three areas required for a Bachelor of Integrated Studies degree. The courses must be taken for credit and the area of emphasis will be in Production and Inventory Control (not Manufacturing Engineering Technology). The course of study described below must be approved by the MfET department chat. Course Requirements for B.I.S. Emphasis Manufacturing Engineering Technology Courses Required (18 credit hours) MfET 3510* Basics of Supply Chain Management (2) MfET 3550 Principles of Supervision (3) MfET 4050* Detailed Scheduling & Planning I (2) MfET 4150* Execution & Control of Operations (2) MfET 4250* Detailed Scheduling & Planning II (2) MfET 4350* Principles of Lean Manufacturing (2) MfET 4590 Production Plan & Process Control (3) MfET 4750* Master Planning of Resources (2) MANUFACTURING ENGINEERING TECHNOLOGY COURSES - MFET MfET 1150. Pre-Professional Seminar in Manufacturing (1) S 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. MfET 1210. Machining Principles I (1) F, S 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. One lecture per week. Co-requisite: MfET 1210L. MfET 1210L. Machining Principles I Lab (2) F, S Refer to course description for MfET 1210. Students will utilize lab time to complete assignments as required. Two 3-hour labs per week are required. Co-requisite: MfET 1210. MfET 1890. Cooperative Work Experience (1-3) F, 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. MfET 2150. Metal Forming, Casting and Welding (2) F Introduction to industrial metal forming, casting and welding processes, equipment selection, design criteria, shop procedures and terminology. Co-requisite: MfET 2150L. MfET 2150L. Metal Forming, Casting and Welding Lab (2) F Lab application of theories taught in MfET 2150 by use of student projects. Co-requisite: MfET 2150. MfET SI2300. Statics and Strength of Materials (5) S 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: Phsx PS/SI2010/L or Phsx PS/ SI2210/LandMathSI1210. MfET 2360. Manufacturing Processes and Materials (3) F 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. MfET SI2410. Quality Concepts and Statistical Applications (3) S 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. MfET 2440. Computer Numeric Control (CNC) in Manufacturing (2) S 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. Prerequisites: MATH 1080 and MfET 1210/1210L or MfET 1110, MfET 1030/1030L and MfET 1050/1050L Co- requisite: MfET 24 40L MfET 2440L. CNC in Manufacturing Lab (1) S 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. MfET 2550. Basics of Quality Engineering (2) 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) Evening classes only. MfET 2610. Quality Improvement Principles and Techniques (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 Weber State University 2003-2004 CATALOG