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Show 346. CAD/CAM Applications (3) Advanced applications for computer graphics to engineering design and manufacturing problems such as N/C programming, nesting, flame cutting, stress analysis and 3-D modeling. Prerequisites: Mfentc 345. 347. Special Projects in CAD/CAM (3) In depth study of specific CAD/CAM applications. Prerequisites: Mfentc 346. 360. Welding Manufacturing Processes (3) Welding process selection, production planning, tooling and quality control. One lecture and two labs. 389. Cooperative Work Experience (1-6) Open to all third year students in Manufacturing Engineering Technology. A continuation of Mfentc 289. 399. Professional Seminar in Manufacturing (1) 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 and processes to manufacturing. (With the consent of instructor). 453. Process Automation (4) Functions in the automation of manufacturing processes including: mechanical transfer systems, programmed controllers, robotics, microprocessors group technology, inspection and materials handling devices. Prerequisite: Elentc 355. 456. Supervision Principles (3) Understanding the basic company, supervisor and operator objectives and responsibilities, and their relationships to each other; case problem approach. Three lectures. 460. Manufacturing Simulation (3) Discrete system models of manufacturing cells. Block modeling concepts with variable statistical experimental framework for optimizing efficiency throughout Computer will be used. Prerequisite: Comsci 101. Prerequisite: Junior status in Mfentc. 461, 462, 463. Senior Lab (2-2-2) Must have department approval. 483. Directed Readings in Manufacturing Engineering Technology (1-6) 489. Cooperative Work Experience (1-6) Open to all fourth year students in Manufacturing Engineering Technology. A continuation of Mfentc 389. 492. Short Courses, Workshops, Institutes and Special Programs (1-4) In order to provide flexibility and to meet many different needs, a number of specific offerings are possible using this catalog number. When the number is used it will be accompanied by a brief and specific descriptive title. The specific title with the credit authorized for the particular offering will appear on the student transcript INDUSTRIAL ENGINEERING TECHNOLOGY COURSEShnentc m 342. Work Methods & Measurement (3) The study of manual work systems design and improvement including the measurement and analysis of standard times. Prerequisite: Mfentc 320. 350. Statistical Quality Control (4) Statistical techniques used in industrial process control charting and acceptance sampling. Prerequisite: Math 241. 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 Logistics program.) Prerequisite: Junior status. 353. Cost Estimating and Engineering Economics (4) Production cost structure, operation costing, break-even analysis, make- buy decision, capital equipment justification. Various computer aids are used to analyze cost data. Prerequisite: Junior status in Mfentc. 355. Quality Control Planning and Analysis (3) Integrates managerial, technological, and statistical concepts across all functions of an organization to ensure that a product will be fit for use. Prerequisite: Inentc 350. 360. Reliability (3) Fundamental concepts of reliability statistical solutions to practical problems. Selected computer applications used. Prerequisite: Reltec 117. Three lectures. 401. Plant Layout and Materials Handling (3) Arrangement of equipment and processes to maximize production efficiency. Selection of material handling equipment Computerized data summaries and computer plant layout will be used. Prerequisite: Mfentc 320. 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: Inentc 350. 432. Quality Motivation (3) The principles and procedures needed to install, operate and manage a quality circle program. 457. Production Management (4) The fundamental areas of methods, work measurement production planning, inventory control, plant layout quality control and production costs are examined for relationship to each other for practical application. Prerequisite: Junior status in Mfentc. 458. Value Engineering Analysis (3) The reduction or avoidance of costs through value analysis techniques. Prerequisite: Senior status. 465. Manufacturing Resources Planning (3) Advanced study of planning and controlling systems. Includes inventory management, bill of material, master schedule, MRP, capacity planning, shop floor control. Computer will be used. Prerequisites: Inentc 351 or 457, Comsci 101. CONSTRUCTION TECHNOLOGY COURSE-CONSTC m 206 240. Building Codes, Inspection and Zoning (3) A course dealing with building inspection, local zoning ordinances and the Uniform Building Code. Class will be an indepth study, and the student should already have a basic knowledge of building materials, construction techniques, plans and specifications. DESIGN AND GRAPHICS TECHNOLOGY Description The Design and Graphics Technology program is responsible for providing the skills and technical knowledge to students entering the Design/Drafting occupations. The major categories under which Design/Drafters jobs are classified are: Architectural/Structural Drafting, Civil Drafting, Electro/Mechanical Drafting, and Mechanical/Tool Drafting. An Associate of Applied Science degree is offered in these four areas. As our physical world becomes more technical and sophisticated, structures, tools and machines become more complicated. This is one reason that computers are moving into the drafting room. Many industries are looking to the computer to help solve their Design/Drafting needs. Computer-aided equipment enables the designer to analyze and design a part accurately and rapidly. The specifications of that design can be stored, and then recalled for further modification and evaluation at a later date. Once the design has been finalized, the computer- aided design process is used to produce the final working drawing. The computer-aided drafting process is emphasized in all classes and will receive an increasing thrust in the future. Computer applications are applied in selected units of most Education The first year program is intended to provide students with the background and skills to enter the job market as beginning junior drafters. Instruction in the second year is organized to develop the students' technical knowledge and skills in the four occupational areas. Associate of Applied Science graduates are qualified to enter the drafting occupations as beginning drafters. If students desire to continue their education in the Mechanical/Tool specialty, they can acquire a diploma after their third year of school which would allow them to enter the job market as beginning mechanical tool design drafters. Students may continue their schooling through a fourth year and obtain a B.S. in Manufacturing Engineering Technology with an emphasis in Computer-aided Design or Tool design. Some adjustments will need to be made with the program manager and department chair. Job opportunities are expected to be favorable through the 80's because of very rapid growth in technology. Prospects will be best for those having post high school drafting design training. PROGRAM: DESIGN GRAPHICS- ASSOCIATE OF APPLIED SCIENCE General Requirements: • A minimum of 93 credit hours. • Courses in major field, requires a minimum of 67 credit hours. • Engl 101(3) and 102(5) or Commun 102(3) or Engl 210(3). • At least 20 hours from the General Education courses listed in the catalog, including at least one course in each of the four areas: Humanities HU, Natural Science NS, Social Science SS, and Personal Development PD. • An overall GPA of 2.00 with a C or better in all major courses. Specific Requirements: Architectural/Structural Drafting: Design and Graphics Technology courses required: 142(4), 143(4), 148(3), 149(3), 150(2), 204(4), 244(3), 260(3), 264(3), 266(3). Support courses required: Art 105(3); Reltec 114(5), 115(5), 117(5) or Math 105(5), 106(5), 107(5); Mfentc 345(3), 346(3); Constc 240(3). Electives: Minimum of 7 credit hours selected with consent of advisor. Civil Drafting: Design & Graphics Technology courses required: 142(4), 143(4), 150(2), 204(4), 244(3), 264(3), 266(4). Support courses required: Photo 101(5); Reltec 114(5), 115(5), 117(5), or Math 105(5), 106(5), 107(5); Geogr 101(5), 345(3) and 339(3); Mfentc 345(3), 346(3). Electives: Minimum of 6 credits selected with consent of advisor. Electro Mechanical Technology Drafting: Design & Graphics courses required: 142(4), 143(4), 215(3), 235(4), 244(3), 245(3). Support courses required: Reltec 114(5), 115(5), 117(5) or Math 105(5), 106(5), 107(5); Eltech 136(5), and 137(2); Comsci 260(4); Mfentc 345(3), 346(3), 347(3). Electives: Minimum of 7 credits selected with consent of advisor. Mechanical/Tool Drafting: Design and Graphics Technology courses required: 142(4), 143(4), 244(3), 245(3), 266(4). Support courses required: Mfentc 121(4), 122(3), 231(2), 244(3), 301(3) 345(3), 346(3), 347(3): Reltec 114(5), 115(5), 117(5), or Math 105(5), 106(5), 107(5); Comsci 260(4). Electives: minimum of 3 credit hours selected with consent of advisor. DESIGN GRAPHICS TECHNOLOGY COURSES-DGTECH CJ 115. Basic Drafting (3) A basic course in drafting for trade-technical majors. Includes the use and care of instruments, lettering, geometrical construction, sketching, shape and size description, dimensioning, multiview drawings, sectional views, auxiliary views, revolutions, threads, fasteners, pictorial drawings and an introduction to computer-aided drafting applications. One 1-hour lecture two 3-hour labs a week. 117. Blueprint Reading (2-3) The abbreviations, symbols, terms, principles and processes of reading mechanical blueprints. One 1-hour lecture and one or two 3-hour labs per week. 14Z Technical Drawing I (4) Basic drafting. Includes lettering, geometric constructions, use of drafting machines, sketching, multiview drawings, sectional views, auxiliary views, dimensional theory, and an introduction to computer- aided drafting applications. One 1-hour lecture and three 3-hour labs a week. Student Services ■ 207 |
