■ ■ ... . B.l 66 67 MANUFACTURING ENGINEERING TECHNOLOGY Advisor: Kerry Tobin 801-626-6921 » 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 chair. 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* Just-In-Time Technology (2) MfET 4590 Production Plan & Process Control (3) MfET 4750* Master Planning of Resources (2) Manufacturing Engineering Technology ■ ■ ■ '■ ' -: : .:: ■■■■■.'■ ' :'■■■' ■ ■■ ■ » Grade Requirements: A grade of "C" or better in all MfET courses is required (a grade of "C-" is not acceptable) in addition to an overall GPA for all courses of 2.00 or higher. Refer to page 35 for general grade requirements for graduation. » Credit Hour Requirements: A total of 67 credit hours is required for graduation with a minimum of 18 credit hours required within the major. Transfer students are required to take a minimum of 30 credit hours at Weber State University. » Assessment Requirements: Students will be required to complete certain assessment instmments as part of the overall requirements for receiving their associate degree. Please see your advisor or your department for specific information regarding assessment. Advisement All Manufacturing Engineering Technology students are required to meet with their faculty advisor at least annually for course and program advisement. Please call the department secretary at 801-626-6305 for the name of your advisor and to schedule an appointment. Admission Requirements Declare your program of study (refer to page 18). There are no special admission or application requirements for this program. General Education Refer to pages 36-40 for Associate of Applied Science degree requirements. Computer Literacy as defined in this catalog is also required for the AAS degree. Consult with your advisor for specific general education guidelines. Course Requirements for the A.A.S. Degree Manufacturing Engineering Technology Courses Required (19 credit hours) MfET 1150 MfET 1210/L MfET 2150/L MfET SI2300 MfET SI2410 MfET 2440/L Pre-Professional Seminar in Manufacturing (1) Machining Principles I (3) Metal Form, Casting, & Welding (w/lab) (4) Statics & Strength of Materials (5) Quality Assurance & Improvement (3) Computer Numeric Control (CNC) in Manufacturing (w/lab) (3) Technical Courses Required (11 credit hours) DG 1250 Computer Aided Drafting (3) DG 1260 Advanced Computer Aided Drafting (3) DG 2450 Geometric Dimension & Tolerancing (2) TBE TE1700 Microcomputer Applications (3) Support Courses Required (25 credit hours) Comm HU1050 Intro to Interpersonal Communication (3) Elementary Chemistry (5) Intro to Statistics (3) Pre-Calculus (5) Calculus I (4) General Physics (w/lab) (5) or Phsx PS/SI2210/L Physics for Scientists & Engineers (w/lab) (5) Other Courses Required (12 credit hours) Engl EN1010 Intro to Writing (3) Engl EN2010 Intermediate Writing (3) Econ SS1010 Economics as a Social Science (3) GenEd HU Fine Arts Elective (3) Suggested Course Sequence The following suggested course sequence is provided to assist students in planning their schedules. Use this only as a guideline and be sure to consult with your advisor. Chem PS/SI1110 Math QL1040 Math QL1080 Math SI1210 Phsx PS/SI2010/L Freshman Fall Freshman Spring__ MfET 1150 1 DG 1260 3 MfET 1210/L 3 MfET 2150/L 4 DG 1250 3 Engl EN2010 3 Math QL1040 3 TBETE1700 3 Engl EN1010 3 Math QL1080 5 Comm HU1050 3 Total Hours 16 Total Hours 18 Sophomore Fall Sophomore jSlfflfi^x, MfETSI2410 3 MfET 2300 5 DG 2450 2 MfET 2440/L 3 Phsx PS/SI2010/L Chem PS/SI1110 5 or PS2210/L 5 Econ SS1010 3 Math SI1210 4 HU Fine Arts Elective 3 Total Hours 17 Total Hours 16 MANUFACTURING ENGINEERING TECHNOLOGY COURSES MfET 1030. Conventional Machining I (.5) F Basic engine lathe, and milling machine theory and practice including: machine and tool performance, blueprint reading, tool geometry, tool selection and design, inspection techniques, and process planning. MfET 1030L. Conventional Machining I Lab (2) F Refer to course description for MfET 1030. Students will utilize a machine shop lab to complete assignments as required. MfET 1050. Conventional Machining II (.5) F Basic milling and drilling theory and practice including: machine and tool performance, tool geometry, tool selection and design, advanced inspection techniques, an introduction to geometric dimensioning & tolerancing (GD&T), and process planning. MfET 1050L. Conventional Machining II Lab (2) F | Refer to course description for MfET 1050. Students will utilize a machine shop lab to complete assignments as required. MfET 1100. Technical Math I (3) F Basic math skills including: fractions, decimals, signed numbers, powers & roots, and algebra that will allow the student to solve common shop math problems and to prepare the student to advance to MfET 1110 Technical Math II. MfET 1110. Technical Math II (3) F Learn how to use geometry, the Cartesian coordinate system, and right triangle trigonometry to calculate cutter paths, countersink depths, and hole locations. MfET 1150. Pre-Professional Seminar in Manufacturing (1) F 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. Corequisite: 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. Corequisite: 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 2020. CNC Programming (3) 5 Applications in Computer Numerical Control (CNC) programming. Includes machine codes, controller functions, tooling requirements, and CNC machine capacity. MfET 2030. CNC Machining I (.5) S Basic Computer Numerical Control (CNC) theory and practice including: terminology, safe operation and setup of a CNC lathe & mill. Programs, cutting tools, tool holders, offsets, process planning, tool lists, setup sheets and other components of CNC machine tools will be covered. MfET 2030L. CNC Machining I Lab (2) 5 Refer to course description for MfET 2030. Students will utilize a CNC lab to complete assignments as required. MfET 2050. CNC Machining II (1) S Advanced Computer Numerical Control (CNC) theory and practice including conversational programming language, troubleshooting, and adjusting offsets, program editing and file transfer. MfET 2050L. CNC Machining II Lab (2) S Refer to course description for MfET 2050. Students will utilize a CNC lab to complete assignments as required. MfET 2150. Metal Forming, Casting and Welding (2) 5 Introduction to industrial metal forming, casting and welding processes, equipment selection, design criteria, shop procedures and terminology. Corequisite: MfET 2150L. MfET 2150L. Metal Forming, Casting and Welding Lab (2) S Lab application of theories taught in MfET 2150 by use of student projects. Corequisite: MfET 2150. MfET SI2300. Statics and Strength of Materials (5) 5 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/L and Math SI1210. 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 Assurance and Improvement (3) F 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. 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 Corequisite: MFET 2440L 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. Corequisite: 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. General PROFILE ENROLLMENT STUDENT AFFAIRS ACADEMIC INFO DEGREE REQ GENED Interdisciplinary FYE HNRS BIS LIBSCI INTRD MINORS Applied Science & 'W CEET CS MFET/MLI CMT DG PRENGR AUTOSV/AUTOTC IDT SST TBE Arts & Humanities COMM ENGL FORLNG DANCE MUSIC THEATR ART MBA MPACC/ACCTNG BUSADM FIN LOM MGMT MKTG ECON/QUANT IS&T on MEDUC CHFAM ATHL/AT HEALTH/NUTRI PE/REC EDUC -:—.. CLS DENSCI PARAMD HTHSCI HAS/HIM NURSNG RADTEC DMS NUCMED RADTHR RESTHY Science BOTANY CHEM GEOSCI MATH/MATHED MICRO PHSX ZOOL Social & Behavioral '■is Q ECON GEOGR HIST POLSC PHILO PSYCH SOCLWK GERONT SOCLGY ANTHRO AEROSP MILSCI NAVSCI Continuing Ed Davis Campus Weber State University Weber State University